best topics for phd in chemistry

100+ Great Chemistry Research Topics

Table of contents

1 What are the best chemistry research topics?
2 5 Tips for Writing Chemistry Research Papers
3 Chemical Engineering Research Topics
4 Organic Сhemistry Research Topics
5 Іnorganic Сhemistry Research Topics
6 Biomolecular Сhemistry Research Topics
7 Analytical Chemistry Research Topics
8 Computational Chemistry Research Topics
9 Physical Chemistry Research Topics
10 Innovative Chemistry Research Topics
11 Environmental Chemistry Research Topics
12 Green Chemistry Research Topics
13.1 Conclusion

Do you need a topic for your chemistry research paper? Are you unsure of where to start? Don’t worry – we’re here to help. In this post, we’ll go over a series of the best chemistry research paper topics as well as Tips for Writing Chemistry Research Papers on different topics. By the time you finish reading this post, you’ll have plenty of ideas to get started on your next research project!

There are many different subfields of chemistry, so it can be tough to find interesting chemistry topics to write about. If you’re struggling to narrow down your topic, we’ll go over lists of topics in multiple fields of study.

What are the best chemistry research topics?

Doing research is important to help scientists learn more about the world around us. By researching different compounds and elements, we can learn more about how they interact with one another and how they can be used to create new products or improve existing ones.

There are many different topics that you can choose to research in chemistry. Here are just a few examples:

The history of chemistry and how it has evolved over time
How different chemicals react with one another
How to create new compounds or improve existing ones
The role of chemistry in the environment
The health effects of different chemicals

5 Tips for Writing Chemistry Research Papers

Once you have chosen a topic for your research paper , it is important to follow some tips to ensure that your paper is well-written and accurate. Here are a few tips to get you started:

Start by doing some background research on your topic. This will help you understand the basics of the topic and give you a good foundation to build your paper on.
Make sure to cite all of the sources that you use in your paper. This will help to show where you got your information and will also help to add credibility to your work.
Be sure to proofread your paper before you submit it. This will ensure that there are no errors and that your paper is clear and concise.
Get help from a tutor or friend if you are struggling with your paper. They may be able to offer helpful advice or feedback.
Take your time when writing your research paper . This is not a race, and it is important to make sure that you do a good job on your research.

By following these tips, you can be sure that your chemistry research paper will be a success! So what are you waiting for? Let’s go over some of the best research paper topics out there.

Chemical Engineering Research Topics

Chemical Engineering is a branch of engineering that deals with the design and application of chemical processes. If you’re wondering how to choose a paper topic, here are some ideas to inspire you:

How to create new alloy compounds or improve existing ones
The health effects of the food industry chemicals
Chemical engineering and sustainable development
The future of chemical engineering
Chemical engineering and the food industry
Chemical engineering and the pharmaceutical industry
Chemical engineering and the cosmetics industry
Chemical engineering and the petrochemical industry

These are just a few examples – there are many more possibilities out there! So get started on your research today. Who knows what you might discover!

Organic Сhemistry Research Topics

Organic chemistry is the study of carbon-containing molecules. There are many different organic chemistry research topics that a student could choose to focus on and here are just a few examples of possible research projects in organic chemistry:

Investigating new methods for synthesizing chiral molecules
Studying the structure and reactivity of carbon nanotubes
Investigating metal complexes with organometallic ligands
Designing benzene derivatives with improved thermal stability
Exploring new ways to control the stereochemistry of chemical reactions
Studying the role of enzymes in organic synthesis
Investigating new strategies for combating drug resistance
Developing new methods for detecting explosives residues
Studying the photochemistry of organic molecules
Studying the behavior of organometallic compounds in biological systems

Іnorganic Сhemistry Research Topics

Inorganic Chemistry is the study of the chemistry of materials that do not contain carbon. Unlike other chemistry research topics, these include elements such as metals, minerals, and inorganic compounds. If you are looking for inorganic chemistry research topics on inorganic chemistry, here are some ideas to get you started:

How different metals react with one another
How to create new alloys or improve existing ones
The role of inorganic chemistry in the environment
Inorganic chemistry and sustainable development
The future of inorganic chemistry
Inorganic chemistry and the food industry
Inorganic chemistry and the pharmaceutical industry
Atomic structure progressive scale grading
Inorganiс Сhemistry and the cosmetics industry

Biomolecular Сhemistry Research Topics

Biomolecular chemistry is the study of molecules that are important for life. These molecules can be found in all living things, from tiny bacteria to the largest animals. Researchers who work in this field use a variety of techniques to learn more about how these molecules function and how they interact with each other.

If you are looking for essential biomolecular chemistry research topics, here are some ideas to get you started:

The structure and function of DNA
The structure and function of proteins
The role of carbohydrates in the body
The role of lipids in the body
How enzymes work
The role of biochemistry in heart disease
Cyanides and their effect on the body
The role of biochemistry in cancer treatment
The role of biochemistry in Parkison’s disease treatment
The role of biochemistry in the immune system

The possibilities are endless for someone willing to dedicate some time to research.

Analytical Chemistry Research Topics

Analytical Chemistry is a type of chemistry that helps scientists figure out what something is made of. This can be done through a variety of methods, such as spectroscopy or chromatography. If you are looking for research topics, here are some ideas to get you started:

How food chemicals react with one another
Mass spectrometry
Analytical aspects of gas and liquid chromatography
Analytical chemistry and sustainable development
Atomic absorption spectroscopy methods and best practices
Analytical chemistry and the pharmaceutical industry in Ibuprofen consumption
Analytical chemistry and the cosmetics industry in UV protectors
Dispersive x-ray analysis of damaged tissues

Analytical chemistry is considered by many a complex science and there is a lot yet to be discovered in the field.

Computational Chemistry Research Topics

Computational chemistry is a way to use computers to help chemists understand chemical reactions. This can be done by simulating reactions or by designing new molecules. If you are looking for essential chemistry research topics in computational chemistry, here are some ideas to get you started:

Molecular mechanics simulation
Reaction rates of complex chemical reactions
Designing new molecules: how can simulation help
The role of computers in the study of quantum mechanics
How to use computers to predict chemical reactions
Using computers to understand organic chemistry
The future of computational chemistry in organic reactions
The impacts of simulation on the development of new medications
Combustion reaction simulation impact on engine development
Quantum-chemistry simulation review

Computers are cutting-edge technology in chemical research and this relatively new field of study has a ton yet to be explored.

Physical Chemistry Research Topics

Physical chemistry is the study of how matter behaves. It looks at the physical and chemical properties of atoms and molecules and how they interact with each other. If you are looking for physical chemistry research topics, here are some ideas to get you started:

Standardization of pH scales
Structure of atom on a quantum scale
Bonding across atoms and molecules
The effect of temperature on chemical reactions
The role of light in in-body chemical reactions
Chemical kinetics
Surface tension and its effects on mixtures
The role of pressure in chemical reactions
Rates of diffusion in gases and liquids
The role of entropy in chemical reactions

Here are just a few samples, but there are plenty more options! Start your research right now!

Innovative Chemistry Research Topics

Innovative chemistry is all about coming up with new ideas and ways to do things. This can be anything from creating new materials to finding new ways to make existing products. If you are looking for ground-breaking chemistry research topics, here are some ideas to get you started:

Amino acids side chain effects in protein folding
Chemistry in the production of nanomaterials
The role of enzymes in chemical reactions
Photocatalysis in 3D printing
Avoiding pesticides in agriculture
Combining chemical and biological processes
Gene modification in medicinal chemistry
The role of quantum mechanics in chemical reactions
Astrochemical research on extraterrestrial molecules
Spectroscopy signatures of pressurized organic components

If you need a hand, there are several sites that also offer research papers for sale and can be a great asset as you work to create your own research papers.

Whatever route you decide to take, good luck! And remember – the sky’s the limit when it comes to research! So get started today and see where your studies may take you. Who knows, you might just make a breakthrough discovery!

Environmental Chemistry Research Topics

Environmental Chemistry is the study of how chemicals interact with the environment. This can include anything from the air we breathe to the water we drink. If you are looking for environmental chemistry research topics, here are some ideas to get you started:

Plastic effects on ocean life
Urban ecology
The role of carbon in climate change
Air pollution and its effects
Water pollution and its effects
Chemicals in food and their effect on the body
The effect of chemicals on plant life
Earth temperature prediction models

A lot of research on the environment is being conducted at the moment because the environment is in danger. There are a lot of environmental problems that need to be solved, and research is the key to solving them.

Green Chemistry Research Topics

Green chemistry is the study of how to make products and processes that are environmentally friendly. This can include anything from finding new ways to recycle materials to developing new products that are biodegradable. If you are looking for green chemistry research topics, here are some ideas to get you started:

Recycling and reuse of materials
Developing biodegradable materials
Improving existing recycling processes
Green chemistry and sustainable development
The future of green chemistry
Green chemistry and the food industry
Green chemistry and the pharmaceutical industry
Green chemistry and the cosmetics industry

A more environmentally friendly world is something we all aspire for and a lot of research has been conducted on how we can achieve this, making this one of the most promising areas of study. The results have been varied, but there are a few key things we can do to make a difference.

Controversial Chemistry Research Topics

Controversial chemistry is all about hot-button topics that people are passionate about. This can include anything from the use of chemicals in warfare to the health effects of different chemicals. If you are looking for controversial topics to write about , here are some ideas to get you started:

The use of chemicals in warfare
Gene modification in human babies
Bioengineering
How fast food chemicals affect the human brain
The role of the government in regulating chemicals
Evolution of cigarette chemicals over time
Chemical effects of CBD oils
Antidepressant chemical reactions
Synthetic molecules replication methods
Gene analysis

Controversial research papers often appear in the media before it has been peer-reviewed and published in a scientific journal. The reason for this is that the media is interested in stories that are new, exciting, and generate a lot of debate.

Chemistry is an incredibly diverse and interesting field, with many controversial topics to write about. If you are looking for a research topic, consider the examples listed in this article. With a little bit of effort, you are sure to find a topic that is both interesting and within your skillset.

In order to be a good researcher, it is important to be able to think critically and solve problems. However, innovation in chemistry research can be challenging. When thinking about how to innovate, it is important to consider both the practical and theoretical aspects of your research. Additionally, try to build on the work of others in order to create something new and unique. With a little bit of effort, you are sure to be able to find a topic that is both interesting and within your skillset.

Happy writing!

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ACS Publications

28 Must-Read Topics in Chemistry

Mar 4, 2021
14 min read

ACS Publications regularly produces collections of the most important chemistry research topics. These Virtual Collections of the most important chemistry research topics bring together the most important ideas in the field in a variety of ways, including Special Issues and ACS Selects from across the portfolio journals. These collections reflect the most important chemistry research […]

Browse 28 of the most important, engaging topics in chemists with Virtual Collections released by ACS Publications journals in Q4 2020:

Crystalline molecular materials: from structure to function.

This Virtual Special Issue focuses on the design and study of materials wherein the target properties arise from, or are enhanced by, the three-dimensional assembly of molecules in a solid phase. The “structure−function” relationship transcends the nature of the individual molecule, and supramolecular organization is a key component in the material’s properties. The goal of this issue is to assemble contributions from a broad community of scientists with similar research interests, as defined by the need to understand and manipulate the bulk assembly of molecules. Placing emphasis on a common interest in supramolecular architecture, this issue showcases work in apparently disparate fields, including molecule-based magnetism, rare zero thermal expansion properties, and catalytic activity.

Read the Issue. ***

Materials for Thermoelectric Energy Conversion

This virtual issue of ACS Applied Materials & Interfaces and ACS Applied Energy Materials presents cutting edge articles in the field of Thermoelectric Energy Conversion. Thermoelectric materials and devices are central for energy conversion and management as they convert waste heat into electricity. Given the ubiquitous nature of heat, thermoelectric materials provide total-package solutions to mitigate environmental crisis and energy needs. The realization of this has caused a surge in the development of high-performance, environmentally benign, robust, and earth-abundant inorganic materials, which can be used in heat to electrical energy generations in power plants, space, automobiles, households, battery technology, and data centers. Interestingly, flexible thermoelectric materials, mainly based on organic/polymer materials, have successfully been integrated into body-worn fabrics and watches, which simply utilize body heat to generate electricity. Furthermore, using the Peltier effect, thermoelectric coolers are developed and are one of the mainstays in the consumer market for refrigeration purposes, especially for portable applications. Hence, thermoelectricity is foreseen as a potential frontrunner in energy management for the near future.

Interfacialscience Developments at the Chinese Academy of Sciences

This virtual issue is a sampling of some of the most recent work from the Chinese Academy of Sciences, with an emphasis on work from this year (2020) so far. The 46 articles in this virtual issue cover a broad range of research topics, examples of which include Janus particle engineering and interfacial assembly, surface modification of colloid particles, stability of water monolayer in mineral under high pressure, nano-bubbles adsorption on surface, switching of underwater superhydrophilicity and superoleophobicity, nanostructured de-icing surface, lithium ion battery anode binder, bio-inspired smart liquid directional transport control, corrosion resistance of alloys, behavior of polymers at solid/liquid interface, and effect of polymer conformation on protein resistance.

Celebrating 90% Completion of the Human Proteome

Twenty years after the establishment of the international Human Proteome Organization (HUPO) and ten years after its launch of the Human Proteome Project (HPP), researchers have much to celebrate. Today, HUPO will release the draft human proteome at the 19th Human Proteome Organization World Congress, connecting virtually, with this Virtual Issue published in the Journal of Proteome Research.

Read the Issue . ***

Nanomaterials-based Membranes for Chemical Separations

Membranes are a critical area of research in academia and have been used in industrial applications for decades. Membrane-based separations are desired in industry because they can be highly energy efficient and up to an order of magnitude less expensive than other techniques such as distillation. In addition, these separations are easily scaled to industrial levels so that advances in the laboratory can be translated to real applications. The key challenges in this field are how to separate chemicals with similar sizes by having a high flux for only one chemical through a membrane. This difference in flux should translate into a high selectivity for one chemical over one or more other chemicals present in a mixture. An unfortunate trade-off in membrane-based separations is that as the permeation of a chemical increases, the selectivity of the membrane will often decrease. To address these challenges, scientists often use cross-linked polymers with ill-defined pores, hard materials such as zeolites with well-defined pores, 2D materials, coated nanofibers, carbon nanotubes, metal nanoparticles, or other nanomaterials.

Organic Chemistry in China: Synthetic Methodology, Natural Products, and More

During the past 20 years, China has become a powerhouse in chemistry research, now leading globally in submissions of research articles to chemical journals. In recognizing these developments, Organic Letters presents a Virtual Issue that includes a collection of 25 research articles contributed by Chinese chemists during 2019-2020, selected from among the more than 1,000 articles published in the journal from China over this period.

Advances in Microfluidics Research

This Virtual Issue highlights articles published in Analytical Chemistry that showcase advances in microfluidics research over the past several years. The articles below are separated by sub-field and span research on virus detection to cell manipulation to 3D-printing, and are all at the cutting edge of microfluidics technologies. The thirty articles included in this collection were selected by Associate Editor Yoshinobu Baba and include previous winners of the Chemical & Biological Microsystems Society (CBMS)/ Analytical Chemistry co-sponsored Young Innovator Award.

Chemistry in Korea: IBS and Beyond

This virtual issue of “Chemistry in Korea: IBS and Beyond” highlights the latest contributions from eight IBS centers along with exciting advances from other emerging scientists in South Korea. Topics encompass a wide range of chemistry and its cross-boundary researches from theory and simulations, nanomaterials, molecular synthesis, catalysts, spectroscopy, supramolecular chemistry, soft materials to nanomedicine.

Highlighting Analytical Chemistry 2020 Advisory Board Members

The members of Analytical Chemistry ‘s Editorial Advisory Board (EAB) and Early Career Board (ECB) panels devote substantial voluntary time and energy to support Analytical Chemistry and deserve special recognition for their contributions. In recognition of their service, this new virtual issue is dedicated to the members of both the journal’s EAB and ECB, with each selecting one of their recent Analytical Chemistry articles to highlight.

A Bright New World of Ferroelectrics: Magic of Spontaneous Polarization

Ferroelectric materials featured with spontaneous polarization have experienced a century of vigorous development. The permanent electric dipole moment makes ferroelectric an outstanding multifunctional material for a wide range of applications. Ferroelectrics with unique coupling effects among electric, optical, mechanical, thermal, and magnetic orders, have been developed for a wide range of functional devices and triggered a new world-wide wave of ferroelectric research. This virtual issue highlights some of the key state-of-the-art findings in ferroelectrics published in ACS Applied Materials & Interfaces and ACS Applied Electronic Materials , and the editorial attempts to reflect the rapid development and provide a perspective in this field.

Peter J. Rossky Festschrift

This Virtual Special Issue honors Professor Peter J. Rossky and his contributions to the field of physical chemistry.

Computational and Experimental Advances in Biomembranes

As an integral component of cellular architecture and signalling, cell membranes are central to cell physiology. Comprising a vastly heterogeneous mixture of proteins and lipids, cell membranes are constantly adapting their structural organization to regulate cellular processes. Malfunction at the level of lipid-protein interaction is implicated in numerous diseases, and hence, understanding cell membrane organization at the molecular level is of critical importance. The collection of articles in this Virtual Special Issue from The Journal of Physical Chemistry B provides a survey of the advances in both computational and experimental characterization of the complex processes underlying the behavior of cellular membranes.

Sensors and Industry

In this virtual issue, ACS Sensors and Analytical Chemistry highlight 30 of these outstanding industrial co-authored papers recently published in the two journals. The breadth of the articles in this collection emphasizes the incredible research on diagnostic methods being performed in both universities and industries, and highlights the benefits of collaboration between the two. Read the Issue . ***

Machine Learning in Physical Chemistry

Physical chemistry stands today at an exciting transition state where the integration of machine learning and data science tools into all corners of the field is poised to do nothing short of revolutionizing the discipline. These powerful techniques – when appropriately combined with domain knowledge, tools, and expertise – have led to new physical insights, better understanding, accelerated discovery, rational design, and inverse engineering that transcend traditional approaches to materials, molecular, and chemical science and engineering. This collection of nearly 150 manuscripts from The Journal of Physical Chemistry A / B / C and The Journal of Physical Chemistry Letters reflects the relevance and popularity of this topic in physical chemistry by both the depth and breadth of excellent articles in this exciting collection.

Self-Healing Materials

This is a spotlight on applications discusses developments made over the last six years that have enabled the fabrication of increasingly high-performance spray-coated perovskite solar cells. In particular, the various approaches adopted to spray-cast perovskite films (one-step vs two-step processes) ware charted and the development of sophisticated techniques used to control thin-film crystallinity is described. Finally, remaining research challenges are discussed that, once solved, may allow the mass deployment of low-cost solar energy.

Women in Mass Spectrometry

This virtual issue was assembled to feature talented women mass spectrometrists who publish in JASMS as the corresponding author. The articles compiled are among the most highly cited that were published in the journal in the last 5 years, regardless of gender, and are representative of the best mass spectrometry science reported in JASMS .

In Memory of Mario Molina (1943-2020)

Mario Molina was a Mexican chemist who shared the 1995 Nobel Prize in chemistry with the late F. Sherwood Rowland of UC Irvine and Paul Crutzen of the Max Planck Institute for Chemistry in Mainz “for their work in atmospheric chemistry particularly concerning the formation and decomposition of ozone.” Molina passed away in his birth city of Mexico City at age 77 on 7 October 2020. A physical chemist at heart, Molina published about 80 papers in The Journal of Physical Chemistry . His mentees remember him by celebrating 30 of them. His indelible legacy lives on through his publications, his collaborators, the scholars that he trained, the innovations in experimental design he made, the thousands who were inspired and informed by his science communication, and the millions whose quality of life improved thanks to his work on stratospheric ozone depletion and air quality in megacities.

Women Scientists at the Forefront of Energy Research: A Virtual Issue, Part 3

This is the third part of a series that recognizes women energy researchers who have published new advances from their laboratories in ACS Energy Letters . The inspirational stories and advice to newcomers in the field contained in this issue should provide motivation to advance the scientific research in energy conversion and storage. Through their personal reflections, these researchers discuss the successful career paths they have taken to become leaders in the scientific community.

Scalable Organic Chemistry: A Virtual Issue to highlight Organic Process Research & Development

From small-scale use in academic research to large-scale application in industrial processes, only select chemistries make the cut to be relevant throughout the scale-up process. This virtual issue showcases a collection of innovative and industrially-relevant papers on key topics from academic and industrial chemists in Organic Process Research & Development .

Virtual Issue in Memoriam of Dr. Alan Poland (1940-2020)

Dr. Alan Poland was a major influence on the development of modern molecular toxicology and the understanding of how chemicals cause cancer. He is most widely known for his groundbreaking work to explain the adverse effects of dioxins, chemicals and related environmental pollutants.

Deep Eutectic Solvents

This virtual issue focuses on scientific and engineering advances related to Deep Eutectic Solvents. It includes papers that have appeared in the last two years in ACS Sustainable Chemistry & Engineering , Industrial & Engineering Chemistry Research , Journal of Chemical & Engineering Data , and Journal of Physical Chemistry B and C .

Celebrating ACS Sensors ‘ Editorial Advisory Board

Metal-Organic Frameworks: Fundamental Study and Applications

Exciting developments in metal-organic frameworks (MOFs) are the focus of this Virtual Issue that is jointly produced by Langmuir and ACS Applied Materials & Interfaces ( ACS AMI ). These two journals publish complementary and ground-breaking work on interfacial science. ACS AMI has a strong focus on practical applications whereas Langmuir encourages reports of both fundamental and applied nature, when rational design is a highlighted feature of the work.

Inorganic Synthesis in Uncommon Reaction Media

Water and organic solvents have long been the most common reaction media for chemical synthesis. Nevertheless, given limits in solubility and the need for extreme temperatures sometimes, especially for inorganic substances, chemists have had a growing interest in moving to “uncommon” reaction media to improve the access to certain compounds or to permit the fundamental study of the behavior of chemicals under unique conditions. In this Virtual Issue, “Inorganic Synthesis in Uncommon Reaction Media,” Guest Editor Julia Chan and Associate Editor Stefanie Dehnen highlight recent reports from Inorganic Chemistry and additionally from Chemistry of Materials and Crystal Growth & Design that feature reactions taking place in currently used uncommon systems: molten metals (metal flux), molten salts (nonmetal flux), ionic liquids (ionothermal if carried out under elevated temperatures), supercritical solvents (solvothermal), and liquefied gases.

The Challenge of Antibacterial Drug Permeation and Current Advances

Recent advances in the area of drug permeation feed the pipeline of antibacterial agents with new and improved activities and keep the ever-changing landscape of antibiotic resistance effectively managed by small molecule therapeutics. The articles included in this Virtual Issue broadly represent three areas of research: 1) new experimental approaches to analyze intracellular accumulation of compounds in whole cells and compound permeation across model membranes; 2) new computational models of drug permeation across the outer membrane and integrated kinetic models of drug permeation across membranes with active efflux; and 3) new antibiotic screening campaigns and exploration of synergistic drug combinations bypassing bacterial permeation barriers.

Organic Chemistry in Japan: A Strong Foundation and Honorable Tradition

Organic chemistry has a strong foundation and honorable tradition in Japan, centering in recent decades predominantly on the development of synthetic methodologies, particularly in an interdisciplinary fashion focusing on cross-coupling and C-H activation and functionalization, the total synthesis of natural products, chemical biology research, supramolecular chemistry, and applications of (opto)electronic materials—all with an eye toward fostering international collaborations. This new Organic Letters Virtual Issue features 25 selected articles form 2019-2020 to highlight these achievements.

This virtual issue in Environmental Science & Technology ( ES&T ) marks the 50-year anniversary of the United States Environmental Protection Agency (US EPA). Recognizing this significant milestone brings an opportunity to reflect on the enormous achievements and impact this federal agency has had on the remediation and protection of the environment, reaching both domestically within the USA and globally since its official beginnings on December 2nd, 1970.

Bioconjugate Chemistry 30th Anniversary Reviews

The breadth and impact of these 30th anniversary reviews demonstrate how the Bioconjugate Chemistry of today continues the forward-looking embrace of new science and systems while maintaining the old-fashioned virtues of scientific rigor and reproducibility.

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100s of Free Chemistry Dissertation Topics & Ideas

Published by Owen Ingram at January 2nd, 2023 , Revised On August 18, 2023

It is not easy to come up with intriguing and compelling chemistry dissertation topic ideas , especially if one is juggling multiple subjects or looking at adjacent fields simultaneously. Students often choose simple and familiar topics for their dissertation papers, but that is not always effective since excellent academic papers are distinctive.

From mode reactions to experimental procedures, the selected chemistry topic should be analytical and scientific in nature. It is essential to avoid a topic that is too specific, intricate, or broad. For instance, students can explore issues related to environmental chemistry or chemical reagents. The student should ensure that the chosen subject has a clearly defined emphasis.

Organic Chemistry Dissertation Topics

Infrared spectroscopy is used to detect chemical molecules
Discuss the chemical makeup of pain relievers
What causes aromatic compounds to be nonreactive?
Determine the variables that drive proton chemical changes
The composition, application, and impact of added polymers or plastics
Chemical synthesis is based on carbon-carbon bond formation processes
Developing novel ways for producing chiral compounds
Investigating the structure and reactivity of carbon nanotubes
Metal complexes containing organometallic ligands are being studied
Improving the thermal stability of benzene derivatives
Investigating novel approaches to controlling the stereochemistry of chemical reactions
Investigation of the role of enzymes in organic synthesis
Developing innovative techniques to overcome drug resistance
Creating new techniques for identifying explosive residues
The investigation of the behaviour of organometallic compounds in biological systems

Inorganic Chemistry Dissertation Topics

The health consequences of various substances
Discuss in depth the chemical processes that result in sapphire production
Introduction to the chemistry of sulphuric acid
Discuss how silicon dioxide may be used in solar cells
What exactly do you mean by orbital hybridization in molecules?
Discuss the chemical structure of hard and soft acids
What exactly do you mean by Crystal Field Theory?
Steel vs iron malleability: A comparison
What do you mean by the Multiple Proportions Law?
Give instances of Dalton’s Law of Partial Pressures
Understanding Lewis Structures as well as Electron Dot Models
How does a gemstone’s chemical structure affect its colour?
What roles do point groups play in inorganic chemistry?
How can molecular symmetry predict a molecule’s chemical properties?
What is the most efficient method of producing synthetic diamonds?

Chemical Engineering Dissertation Topics

Describe the role of biofuel in rocket fuel
What exactly do you mean by microfluidics?
Explain the wastewater treatment process
Explain in detail the rare earth extractions
What do you mean by reducing NOx emissions?
What exactly do you mean by molecular dynamics and simulation?
What exactly do you mean by simulation of density functional theory?
What exactly do you mean by Nano filters, and how do they work?
Discuss how coal and iron ore slimes are processed
Explain how photocatalysis works in a 3D printer
Explain the similarities and differences between rocket fuel and biofuels
Describe molecular dynamics and simulation
What exactly are nanofiltration systems, and how do they function?
Explain the density functional theory simulation
Analyze the processing of iron and coal slimes

Physical Chemistry Dissertation Topics

When does a collision not result in a response?
Examine harmonic and anharmonic oscillators
Define the energies of successive ionization
How can intermolecular forces influence a substance’s melting point?
Why is the Earth considered a closed thermodynamic system?
Explain how to utilize the mean bond enthalpy
Reasons why molecules with polar connections may not have a persistent dipole
What is the relationship between quantum mechanics and chemistry?
What exactly do you mean by vibrational spectroscopy?
Examine the similarities and differences between harmonic and anharmonic oscillators
What exactly do you mean by multielectron atoms?
In basic terms, discuss the elements of heteroatomic. Bonding between chemicals
Provide a thorough examination of the Schrodinger Equation
Describe the physical and chemical characteristics of the gas
Explain the process of water expansion during the freezing process

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Biochemistry Dissertation Topics

Evaluate the effect of PH on the plants
Describe in detail cell metabolic processes. Define the structure of proteins and their involvement in chemical and physiological changes in the living organism
Explain the process of fatty acid metabolism in the human body
Explain the proliferation and repair of DNA
Examine the structure and function of carbohydrates in the living organism
Provide an in-depth analysis of the composition and function of nucleic acids
Explain some of the unique characteristics of water
Discuss the roles of lipids in biological systems
Explain how the tea brewing process may be improved
Discuss the significance of biochemistry in the human immune system

Environmental Chemistry Dissertation Topics

What are the chemical reactions and compositions responsible for cloud formation?
Explain the chemical reactions that result in the creation of pearls
How industrial activities and acid rains are correlated with each other?
What lessons can one learn from ecological disasters such as Chornobyl and Fukushima?
Building green energy and its scope that lies in future
Purification of the tap water through the application of chlorine
How do the chemical changes in the atmosphere result in global warming?
What are the adverse results of deep-sea mining?
Discuss the contamination risks of groundwater in developing economies
Plastic packaging and its impact on the overall quality of food we consume

Analytical Chemistry Dissertation Topics

What exactly do you mean by Chemical Equilibrium?
Describe some of the most effective electro-analytical procedures
What are the advantages of the isomerism framework?
Name a few of the most effective electrochemical applications
Develop the overall idea of Soda Industrial Quality Assurance
Examine the evolution of spectroscopic applications
What exactly do you mean by Electrodes and Potentiometry?
Make a comparison of the vitamin pills
Discuss with examples the characteristics of acid-base titrations
Sustainable development and analytical chemistry
Methods and best practices for atomic absorption spectroscopy
In Ibuprofen use, analytical chemistry and the pharmaceutical industry.
UV protectors: analytical chemistry and the cosmetics sector
What happens when food molecules interact with one another?
How to make new compounds or enhance old ones

Computational Chemistry Dissertation Topics

Discuss the evolution of chemical sensors in depth
What are the primary advantages of dye-sensitized solar cells?
Investigate the hydrogen bonding simulation process in depth
What exactly do you mean by metal oxide nanoparticles?
Explain in detail the heterogeneous catalytic CO2 to the CH3OH conversion process
Energy surfaces are mathematical functions that provide a molecule with a function based on its geometry: Elaborate
What exactly do you mean by Coupled Cluster Theory?
Explain how NBO, or natural bond orbitals, produce the highest electron density

Nuclear Chemistry Dissertation Topics

What are the most prevalent applications for radioactive elements?
How do you determine the half-life of an element?
Hydrogen’s importance in nuclear fusion
Compare the effectiveness of various extraction processes
The discovery of radioactivity by Henri Becquerel
What biological uses does radiochemistry have?
Water and radioactive elements interact
What role does nuclear chemistry have in medicine?
How do elements transform during nuclear fission?
Irradiation can be used to eliminate hazardous chemical molecules
The negative consequences of ionizing radiation vs non-ionizing radiation
What role does chemosensory play in radiation chemistry?

Green Chemistry Dissertation Topics

Discuss the twelve green chemistry concepts
Discuss the most important challenges in green chemistry nowadays
Compare the efficiency of various solar cell materials
What are the most efficient techniques to extract and utilize key materials sustainably?
Electrocatalysis is a method of producing and using fuels
Will growing meat become a more environmentally friendly alternative to traditional farming?
Innovative pesticide-free agriculture methods
What are the different kinds of bio-based sustainable feedstocks?
How do metathesis reactions aid in the reduction of greenhouse gas emissions?
Explore the most effective methods to reduce carbon pollution

Common Chemistry Dissertation Topics

The Evolution of Chemical Warfare What is the next step?
How did Chemistry become one of the most dangerous scientific professions?
Discuss the role of chemicals in political assassinations throughout history
The history of the use of chemistry as a weapon in genocide during the Holocaust
The relevance of human rights and the notion of lethal injection
What role does chemistry play in murder or euthanasia?
How might chemistry aid in detecting and differentiating natural and manufactured diseases?
Why is the use of petroleum products regarded as hazardous?
What are the generational consequences of herbicide exposure?
How is pollution a significantly greater threat than melting ice caps?
Investigating the four distinct states of matter: Why is plasma so rare on Earth?
Why is lithium considered one of the most successful battery materials?
Examine the impact of PH on planets
Describe the formation of synthetic diamonds
Discuss how to maximize tea brewing
Explain how heavy metals in plants are identified
Examine the air that people breathe
Why is it risky to use petroleum products?
Describe how chemistry might help indoor plants
Explain how to clean oil successfully

This concludes the extensive list of c hemistry dissertation topic ideas produced by the industry’s best dissertation writers . It is our pleasure to inform you that these themes can be used not only for chemistry dissertations but also for research journal papers.

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PhD Program

Professor Wender discusses chemistry with his graduate students.

Doctoral study in chemistry at Stanford University prepares students for research and teaching careers with diverse emphases in basic, life, medical, physical, energy, materials, and environmental sciences.

The Department of Chemistry offers opportunities for graduate study spanning contemporary subfields, including theoretical, organic, inorganic, physical, biophysical and biomedical chemistry and more. Much of the research defies easy classification along traditional divisions; cross-disciplinary collaborations with Stanford's many vibrant research departments and institutes is among factors distinguishing this world-class graduate program.

The Department of Chemistry is committed to providing academic advising in support of graduate student scholarly and professional development. This advising relationship entails collaborative and sustained engagement with mutual respect by both the adviser and advisee.

The adviser is expected to meet at least monthly with the graduate student to discuss on-going research.
There should be a yearly independent development plan (IDP) meeting between the graduate student and adviser. Topics include research progress, expectations for completion of PhD, areas for both the student and adviser to improve in their joint research effort.
A research adviser should provide timely feedback on manuscripts and thesis chapters.
Graduate students are active contributors to the advising relationship, proactively seeking academic and professional guidance and taking responsibility for informing themselves of policies and degree requirements for their graduate program.
If there is a significant issue concerning the graduate student’s progress in research, the adviser must communicate this to the student and to the Graduate Studies Committee in writing. This feedback should include the issues, what needs to be done to overcome these issues and by when.

Academic advising by Stanford faculty is a critical component of all graduate students' education and additional resources can be found in the Policies and Best Practices for Advising Relationships at Stanford and the Guidelines for Faculty-Student Advising at Stanford .

Learn more about the program through the links below, and by exploring the research interests of the Chemistry Faculty and Courtesy Faculty .

College of Arts & Sciences
Graduate Division
College of Liberal and Professional Studies

PhD Program

Chemistry PhD Program

The University of Pennsylvania is an internationally renowned research institution that attracts the best students from the United States and around the globe. The Graduate Program is designed for students who wish to earn a Ph.D. in Chemistry while undertaking cutting edge research. The program provides students with the necessary theoretical background and hands-on training to become independent and highly successful scientists. Graduate students achieve mastery of advanced chemistry topics through courses in different subdisciplines. Broad exposure to current research also occurs via four weekly departmental seminar programs and many interdisciplinary, university-wide lecture series.

Currently, faculty, students, and postdoctoral associates in Chemistry work in the fields of bioinorganic chemistry, bioorganic chemistry, chemical biology, biophysical chemistry, bioinformatics, materials science, laser chemistry, health related chemistry, structural and dynamical studies of biological systems, X-ray scattering/diffraction, NMR spectroscopy, applications of computing and computer graphics, as well as investigations of chemical communication and hormone-receptor interactions. Many research groups combine different techniques to explore frontier areas, such as nanomaterials applied to biology, photoactive biomolecules, and single-molecule imaging. Novel synthetic procedures are under constant development for targets ranging from super-emissive nanoparticles to highly specialized drug molecules and giant dendrimers, which are being explored, for example, as drug-delivery systems. The Research Facilities in the Department of Chemistry provide a strong technology base to enable the highest level of innovation. Graduate students are a driving, integral force at Penn Chemistry.

PhD in Chemistry

The PhD in chemistry is primarily a research degree. It is awarded to students who have displayed competence in planning and conducting original research in the field of chemistry, demonstrated a broad familiarity with the science of chemistry, understanding in the application of the scientific method, and gained a thorough knowledge of their field of specialization.

Students build a solid foundation in all four core areas of chemistry (analytical, inorganic, organic, and physical), and a thorough knowledge of their chosen field of specialization. In the first part of the PhD program, students take at least one formal classroom course in each the core areas of chemistry as outlined in the course requirements below. The courses must be completed successfully (B- or better) by the end of the third semester.

Since original research is the primary requirement for the PhD degree, a student selects a research supervisor and begins research before the end the first year. The student and research supervisor then select two faculty members to serve as the student's Doctoral Research Committee. The Committee, in conjunction with the student's research adviser, take over the advisory function from the graduate committee and guides the student's work to promote development as an independent investigator.

Thus, in addition to research each student must complete the following requirements:

Service as a teaching assistant
Regular progress updates with a faculty Research Committee
A departmental seminar
Defense of an original research proposal.
Completion of a dissertation reporting significant work of publishable quality

Course Requirements

At least one of the following analytical chemistry courses:

Chem 141: Instrumental Analysis
Chem 142: Advanced Analytical Methods
Chem 144: Spectroscopic Methods of Analysis
Chem 145: Separation Science
Chem 146: Electroanalytical Chemistry

At least one of the following inorganic chemistry courses:

Chem 161: Advanced Inorganic Chemistry
Chem 162: Chemistry of Transition Elements
Chem 164: Bioinorganic Chemistry
Chem 165: Physical Methods In Inorganic Chemistry

At least one of the following organic chemistry courses:

Chem 150: Intermediate Organic Chemistry
Chem 151: Physical Organic Chemistry
Chem 152: Advanced Organic Synthesis

At least one of the following physical chemistry courses:

Chem 131: Statistical Thermodynamics
Chem 132: Chemical Kinetics and Dynamics
Chem 133: Quantum Mechanics
Chem 134: Biophysical Chemistry
Chem 136: Spectroscopy and Molecular Structure
Chem 138: Atomic Scale Structure and Properties of Surfaces
Two additional classroom courses, exclusive of research, must be completed satisfactorily by the end of the fourth semester

About the Chemistry Ph.D. Program

Ph.d. in chemistry faq's.

The Chemistry PhD program is designed towards developing within each student the ability to do creative scientific research. Accordingly, the single most important facet of the curriculum for an individual is their own research project. In keeping with the goal of fostering an atmosphere of scholarly, independent study, formal course requirements are minimal and vary among disciplines; advisor's tailor course requirements to best prepare the student for the chosen research field.

The Doctoral program includes the following concentrations, each of which has specific degree requirements:

Physical Chemistry : In general, the Physical Chemistry Graduate Program encompasses analytical, nuclear, biophysical, and theoretical chemistry.
Synthetic Chemistry : The Synthetic Chemistry Graduate Program includes emphases in either organic or inorganic chemistry
Chemical Biology : The Chemical Biology Graduate Program covers a range of research areas at the interface of Chemistry and Biology.

Research. A graduate student spends a good deal of time during the first week of the first semester at Berkeley talking to various faculty members about possible research projects, studying pertinent literature references, and choosing an individual project. New graduate students meet shortly after their arrival with a faculty adviser. From the faculty adviser the student obtains a list of faculty members whose research may interest the student. After visiting these and additional faculty, if necessary, the student chooses a research director, with the consent of the faculty member and the graduate adviser. By the end of the first semester most students have made a choice and are full-fledged members of research group. Students in the Chemical Biology Graduate Program will select their thesis advisor after completion of three-ten week rotations. Thereafter, all students become involved in library research on their projects and many begin actual experimental or theoretical work.

Independent Study. A student who chooses to specialize in physical chemistry is normally expected to take two courses per semester during the first year and one or two additional semesters of coursework sometimes during the second year. These may include topics such Quantum Mechanics, Statistical Mechanics, Group Theory, Interactions of Radiation with Matter, and many more. At the other extreme, a student specializing in inorganic chemistry will concentrate more heavily on special topics seminars and take fewer courses. The course offerings in the University are varied so that individual students have the opportunity to take other courses which serve their own needs. Such as, a student working on nuclear chemistry will probably elect additional graduate physics courses, while a student working on biophysical or bio-organic problems may take courses offered by the Biochemistry Department. Students in the Chemical Biology program will take courses from both Chemistry and Molecular and Cell Biology departments.

Seminars. Because of the size and diversity of the Berkeley faculty, there are many seminars on a variety of topics which students may choose to attend. There are regular weekly seminars in several major areas, including biophysical, physical, nuclear, organic, theoretical, solid state, and inorganic chemistry. These seminars are presented by members of the Berkeley faculty, as well as distinguished visitors to the campus. These seminars allow the students to become aware of the most important current research going on in the field. In addition to these regular seminars, there are several regular department seminars devoted to presentations by graduate students. One of the doctoral program requirements is that each student delivers a departmental seminar known as a graduate research conference during the second year. Individual research groups also hold regular research seminars. The format of these small, informal seminars varies. In some cases, graduate students discuss their own current research before the other members of the research group. On other occasions, the group seminars may be devoted to group discussions of recent papers which are of interest to the particular research group. In any event, small group seminars are one of the most important ways in which students learn by organizing and interpreting their own results before their peers.

Qualifying Exam. Sometime during the second year of graduate work at Berkeley, each student takes a qualifying examination. The examining board, a committee of four faculty members, is appointed to examine the student for general competence in the area of interest. The qualifying examination is centered around the defense of the individual research project. Upon satisfactory completion of the oral qualifying examination, the student is advanced to candidacy for the Ph.D. degree. After advancement, the student completes an original, scholarly contribution to science and writes a dissertation on the subject. Most students complete their work and received their degree within five years.

Teaching. An integral part of the graduate education at Berkeley is teaching. The department requires that each doctoral candidate assist in the instructional program of the department as a teaching assistant for two semesters during their graduate careers. The faculty regard the teaching experience as highly valuable for all graduate students, especially those who plan to teach as a career.

Financial Aid. All students admitted to our graduate program receive a stipend for the duration of study in the form of teaching and research assistantships as long as they are in residence and demonstrate good progress toward the degree. Students also receive full tution, health, dental and vision insurance. Most funds for this support derive from research contracts and grants.

For more information see the Berkeley Bulletin

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Home » 300+ Chemistry Research Topics

300+ Chemistry Research Topics

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Chemistry is a fascinating and complex field that explores the composition, properties, and behavior of matter at the molecular and atomic level. As a result, there are numerous chemistry research topics that can be explored, ranging from the development of new materials and drugs to the study of natural compounds and the environment. In this rapidly evolving field, researchers are constantly uncovering new insights and pushing the boundaries of our understanding of chemistry. Whether you are a student, a professional researcher, or simply curious about the world around you, there is always something new to discover in the field of chemistry. In this post, we will explore some of the exciting and important research topics in chemistry today.

Chemistry Research Topics

Chemistry Research Topics are as follows:

Organic Chemistry Research Topics

Organic Chemistry Research Topics are as follows:

Development of novel synthetic routes for the production of biologically active natural products
Investigation of reaction mechanisms and kinetics for organic transformations
Design and synthesis of new catalysts for asymmetric organic reactions
Synthesis and characterization of chiral compounds for pharmaceutical applications
Development of sustainable methods for the synthesis of organic molecules using renewable resources
Discovery of new reaction pathways for the conversion of biomass into high-value chemicals
Study of molecular recognition and host-guest interactions for drug design
Design and synthesis of new materials for energy storage and conversion
Development of efficient and selective methods for C-H functionalization reactions
Exploration of the reactivity of reactive intermediates such as radicals and carbenes
Study of supramolecular chemistry and self-assembly of organic molecules
Development of new methods for the synthesis of heterocyclic compounds
Investigation of the biological activities and mechanisms of action of natural products
Synthesis of polymeric materials with controlled architecture and functionality
Development of new synthetic methodologies for the preparation of bioconjugates
Investigation of the mechanisms of enzyme catalysis and the design of enzyme inhibitors
Synthesis and characterization of novel fluorescent probes for biological imaging
Development of new synthetic strategies for the preparation of carbohydrates and glycoconjugates
Study of the properties and reactivity of carbon nanomaterials
Design and synthesis of novel drugs for the treatment of diseases such as cancer, diabetes, and Alzheimer’s disease.

Inorganic Chemistry Research Topics

Inorganic Chemistry Research Topics are as follows:

Synthesis and characterization of new metal-organic frameworks (MOFs) for gas storage and separation applications
Development of new catalysts for sustainable chemical synthesis reactions
Investigation of the electronic and magnetic properties of transition metal complexes for spintronics applications
Synthesis and characterization of novel nanomaterials for energy storage applications
Development of new ligands for metal coordination complexes with potential medical applications
Investigation of the mechanism of metal-catalyzed reactions using advanced spectroscopic techniques
Synthesis and characterization of new inorganic materials for photocatalytic water splitting
Development of new materials for electrochemical carbon dioxide reduction reactions
Investigation of the properties of transition metal oxides for energy storage and conversion applications
Synthesis and characterization of new metal chalcogenides for optoelectronic applications
Development of new methods for the preparation of inorganic nanoparticles with controlled size and shape
Investigation of the reactivity and catalytic properties of metal clusters
Synthesis and characterization of new metal-organic polyhedra (MOPs) for gas storage and separation applications
Development of new methods for the synthesis of metal nanoparticles using environmentally friendly reducing agents
Investigation of the properties of metal-organic frameworks for gas sensing applications
Synthesis and characterization of new coordination polymers with potential magnetic and electronic properties
Development of new materials for electrocatalytic water oxidation reactions
Investigation of the properties of metal-organic frameworks for carbon capture and storage applications
Synthesis and characterization of new metal-containing polymers with potential applications in electronics and energy storage
Development of new methods for the synthesis of metal-organic frameworks using green solvents and renewable resources.

Physical Chemistry Research Topics

Physical Chemistry Research Topics are as follows:

Investigation of the properties and interactions of ionic liquids in aqueous and non-aqueous solutions.
Development of advanced analytical techniques for the study of protein structure and dynamics.
Investigation of the thermodynamic properties of supercritical fluids for use in industrial applications.
Development of novel nanomaterials for energy storage applications.
Studies of the surface chemistry of catalysts for the optimization of their performance in chemical reactions.
Development of new methods for the synthesis of complex organic molecules with improved yields and selectivity.
Investigation of the molecular mechanisms involved in the catalysis of biochemical reactions.
Development of new strategies for the controlled release of drugs and other bioactive molecules.
Studies of the interaction of nanoparticles with biological systems for biomedical applications.
Investigation of the thermodynamic properties of materials under extreme conditions of temperature and pressure.
Development of new methods for the characterization of materials at the nanoscale.
Investigation of the electronic and magnetic properties of materials for use in spintronics.
Development of new materials for energy conversion and storage.
Studies of the kinetics and thermodynamics of adsorption processes on surfaces.
Investigation of the transport properties of ionic liquids for use in energy storage and conversion devices.
Development of new materials for the capture and sequestration of greenhouse gases.
Studies of the structure and properties of biomolecules for use in drug design and development.
Investigation of the dynamics of chemical reactions in solution using time-resolved spectroscopic techniques.
Development of new approaches for the synthesis of metallic and semiconductor nanoparticles with controlled size and shape.
Studies of the structure and properties of materials for use in electrochemical energy storage devices.

Analytical Chemistry Research Topics

Analytical Chemistry Research Topics are as follows:

Development and optimization of analytical techniques for the quantification of trace elements in food and environmental samples.
Design and synthesis of novel analytical probes for the detection of biomolecules in complex matrices.
Investigation of the fundamental mechanisms involved in the separation and detection of complex mixtures using chromatographic techniques.
Development of sensors and biosensors for the detection of chemical and biological species in real-time.
Investigation of the chemical and structural properties of nanomaterials and their applications in analytical chemistry.
Development and validation of analytical methods for the quantification of contaminants and pollutants in water, air, and soil.
Investigation of the molecular mechanisms underlying drug metabolism and toxicity using mass spectrometry.
Development of analytical tools for the identification and quantification of drugs of abuse in biological matrices.
Investigation of the chemical composition and properties of natural products and their applications in medicine and food science.
Development of advanced analytical techniques for the characterization of proteins and peptides.
Investigation of the chemistry and mechanism of action of antioxidants in foods and their impact on human health.
Development of analytical methods for the detection and quantification of microorganisms in food and environmental samples.
Investigation of the molecular mechanisms involved in the biosynthesis and degradation of important biomolecules such as proteins, carbohydrates, and lipids.
Development of analytical methods for the detection and quantification of environmental toxins and their impact on human health.
Investigation of the structure and properties of biological membranes and their role in drug delivery and disease.
Development of analytical techniques for the characterization of complex mixtures such as petroleum and crude oil.
Investigation of the chemistry and mechanism of action of natural and synthetic dyes.
Development of analytical techniques for the detection and quantification of pharmaceuticals and personal care products in water and wastewater.
Investigation of the chemical composition and properties of biopolymers and their applications in biomedicine and biomaterials.
Development of analytical methods for the identification and quantification of essential nutrients and vitamins in food and dietary supplements.

Biochemistry Research Topics

Biochemistry Research Topics are as follows:

The role of enzymes in metabolic pathways
The biochemistry of DNA replication and repair
Protein folding and misfolding diseases
Lipid metabolism and the pathogenesis of atherosclerosis
The role of vitamins and minerals in human metabolism
Biochemistry of cancer and the development of targeted therapies
The biochemistry of signal transduction pathways and their regulation
The mechanisms of antibiotic resistance in bacteria
The biochemistry of neurotransmitters and their roles in behavior and disease
The role of oxidative stress in aging and age-related diseases
The biochemistry of microbial fermentation and its applications in industry
The biochemistry of the immune system and its response to pathogens
The biochemistry of plant metabolism and its regulation
The molecular basis of genetic diseases and gene therapy
The biochemistry of membrane transport and its role in cell function
The biochemistry of muscle contraction and its regulation
The role of lipids in membrane structure and function
The biochemistry of photosynthesis and its regulation
The biochemistry of RNA splicing and alternative splicing events
The biochemistry of epigenetics and its regulation in gene expression.

Environmental Chemistry Research Topics

Environmental Chemistry Research Topics are as follows:

Investigating the effects of microplastics on aquatic ecosystems and their potential impact on human health.
Examining the impact of climate change on soil quality and nutrient availability in agricultural systems.
Developing methods to improve the removal of heavy metals from contaminated soils and waterways.
Assessing the effectiveness of natural and synthetic antioxidants in mitigating the effects of air pollution on human health.
Investigating the potential for using algae and other microorganisms to sequester carbon dioxide from the atmosphere.
Studying the role of biodegradable plastics in reducing plastic waste and their impact on the environment.
Examining the impact of pesticides and other agricultural chemicals on water quality and the health of aquatic organisms.
Investigating the effects of ocean acidification on marine organisms and ecosystems.
Developing new materials and technologies to reduce carbon emissions from industrial processes.
Evaluating the effectiveness of phytoremediation in cleaning up contaminated soils and waterways.
Studying the impact of microplastics on terrestrial ecosystems and their potential to enter the food chain.
Developing sustainable methods for managing and recycling electronic waste.
Investigating the role of natural processes, such as weathering and erosion, in regulating atmospheric carbon dioxide levels.
Assessing the impact of urbanization on air quality and developing strategies to mitigate pollution in cities.
Examining the effects of climate change on the distribution and abundance of species in different ecosystems.
Investigating the impact of ocean currents on the distribution of pollutants and other environmental contaminants.
Developing new materials and technologies for renewable energy generation and storage.
Studying the effects of deforestation on soil quality, water availability, and biodiversity.
Assessing the potential for using waste materials, such as agricultural residues and municipal solid waste, as sources of renewable energy.
Investigating the role of natural and synthetic chemicals in regulating ecosystem functions, such as nutrient cycling and carbon sequestration.

Polymer Chemistry Research Topics

Polymer Chemistry Research Topics are as follows:

Development of new monomers for high-performance polymers
Synthesis and characterization of biodegradable polymers for sustainable packaging
Design of stimuli-responsive polymers for drug delivery applications
Investigation of the properties and applications of conductive polymers
Development of new catalysts for controlled/living polymerization
Synthesis of polymers with tailored mechanical properties
Characterization of the structure-property relationship in polymer nanocomposites
Study of the impact of polymer architecture on material properties
Design and synthesis of new polymeric materials for energy storage
Development of high-throughput methods for polymer synthesis and characterization
Exploration of new strategies for polymer recycling and upcycling
Synthesis and characterization of responsive polymer networks for smart textiles
Design of advanced polymer coatings with self-healing properties
Investigation of the impact of processing conditions on the morphology and properties of polymer materials
Study of the interactions between polymers and biological systems
Development of biocompatible polymers for tissue engineering applications
Synthesis and characterization of block copolymers for advanced membrane applications
Exploration of the potential of polymer-based sensors and actuators
Design of novel polymer electrolytes for advanced batteries and fuel cells
Study of the behavior of polymers under extreme conditions, such as high pressure or temperature.

Materials Chemistry Research Topics

Materials Chemistry Research Topics are as follows:

Development of new advanced materials for energy storage and conversion
Synthesis and characterization of nanomaterials for environmental remediation
Design and fabrication of stimuli-responsive materials for drug delivery
Investigation of electrocatalytic materials for fuel cells and electrolysis
Fabrication of flexible and stretchable electronic materials for wearable devices
Development of novel materials for high-performance electronic devices
Exploration of organic-inorganic hybrid materials for optoelectronic applications
Study of corrosion-resistant coatings for metallic materials
Investigation of biomaterials for tissue engineering and regenerative medicine
Synthesis and characterization of metal-organic frameworks for gas storage and separation
Design and fabrication of new materials for water purification
Investigation of carbon-based materials for supercapacitors and batteries
Synthesis and characterization of self-healing materials for structural applications
Development of new materials for catalysis and chemical reactions
Exploration of magnetic materials for spintronic devices
Investigation of thermoelectric materials for energy conversion
Study of 2D materials for electronic and optoelectronic applications
Development of sustainable and eco-friendly materials for packaging
Fabrication of advanced materials for sensors and actuators
Investigation of materials for high-temperature applications such as aerospace and nuclear industries.

Nuclear Chemistry Research Topics

Nuclear Chemistry Research Topics are as follows:

Nuclear fission and fusion reactions
Nuclear power plant safety and radiation protection
Radioactive waste management and disposal
Nuclear fuel cycle and waste reprocessing
Nuclear energy and its impact on climate change
Radiation therapy for cancer treatment
Radiopharmaceuticals for medical imaging
Nuclear medicine and its role in diagnostics
Nuclear forensics and nuclear security
Isotopic analysis in environmental monitoring and pollution control
Nuclear magnetic resonance (NMR) spectroscopy
Nuclear magnetic resonance imaging (MRI)
Radiation damage in materials and radiation effects on electronic devices
Nuclear data evaluation and validation
Nuclear reactors design and optimization
Nuclear fuel performance and irradiation behavior
Nuclear energy systems integration and optimization
Neutron and gamma-ray detection and measurement techniques
Nuclear astrophysics and cosmology
Nuclear weapons proliferation and disarmament.

Medicinal Chemistry Research Topics

Medicinal Chemistry Research Topics are as follows:

Drug discovery and development
Design and synthesis of novel drugs
Medicinal chemistry of natural products
Structure-activity relationships (SAR) of drugs
Rational drug design using computational methods
Target identification and validation
Drug metabolism and pharmacokinetics (DMPK)
Drug delivery systems
Development of new antibiotics
Design of drugs for the treatment of cancer
Development of drugs for the treatment of neurological disorders
Medicinal chemistry of peptides and proteins
Development of drugs for the treatment of infectious diseases
Discovery of new antiviral agents
Design of drugs for the treatment of cardiovascular diseases
Medicinal chemistry of enzyme inhibitors
Development of drugs for the treatment of inflammatory diseases
Design of drugs for the treatment of metabolic disorders
Medicinal chemistry of anti-cancer agents
Development of drugs for the treatment of rare diseases.

Food Chemistry Research Topics

Food Chemistry Research Topics are as follows:

Investigating the effect of cooking methods on the nutritional value of food.
Analyzing the role of antioxidants in preventing food spoilage and degradation.
Examining the effect of food processing techniques on the nutritional value of fruits and vegetables.
Studying the chemistry of food additives and their impact on human health.
Evaluating the role of enzymes in food digestion and processing.
Investigating the chemical properties and functional uses of food proteins.
Analyzing the effect of food packaging materials on the quality and safety of food products.
Examining the chemistry of food flavorings and the impact of flavor on consumer acceptance.
Studying the role of carbohydrates in food texture and structure.
Investigating the chemistry of food lipids and their impact on human health.
Analyzing the chemical properties and functional uses of food gums and emulsifiers.
Examining the effect of processing on the flavor and aroma of food products.
Studying the chemistry of food preservatives and their impact on food safety.
Investigating the chemical properties and functional uses of food fibers.
Analyzing the effect of food processing on the bioavailability of nutrients.
Examining the chemistry of food colorants and their impact on consumer acceptance.
Studying the role of vitamins and minerals in food and their impact on human health.
Investigating the chemical properties and functional uses of food hydrocolloids.
Analyzing the effect of food processing on the allergenicity of food products.
Examining the chemistry of food sweeteners and their impact on human health.

Industrial Chemistry Research Topics

Industrial Chemistry Research Topics are as follows:

Development of catalysts for selective hydrogenation reactions in the petrochemical industry.
Green chemistry approaches for the synthesis of biodegradable polymers from renewable sources.
Optimization of solvent extraction processes for the separation of rare earth elements from ores.
Development of novel materials for energy storage applications, such as lithium-ion batteries.
Production of biofuels from non-food sources, such as algae or waste biomass.
Application of computational chemistry to optimize the design of new catalysts and materials.
Design and optimization of continuous flow processes for large-scale chemical production.
Development of new synthetic routes for the production of pharmaceutical intermediates.
Investigation of the environmental impact of industrial processes and development of sustainable alternatives.
Development of innovative water treatment technologies for industrial wastewater.
Synthesis of functionalized nanoparticles for use in drug delivery and other biomedical applications.
Optimization of processes for the production of high-performance polymers, such as polyamides or polyesters.
Design and optimization of process control strategies for efficient and safe chemical production.
Development of new methods for the detection and removal of heavy metal ions from industrial effluents.
Investigation of the behavior of surfactants in complex mixtures, such as crude oil or food products.
Development of new materials for catalytic oxidation reactions, such as the removal of volatile organic compounds from air.
Investigation of the properties and behavior of materials under extreme conditions, such as high pressure or high temperature.
Development of new processes for the production of chemicals from renewable resources, such as bio-based building blocks.
Study of the kinetics and mechanism of chemical reactions in complex systems, such as multi-phase reactors.
Optimization of the production of fine chemicals, such as flavors and fragrances, using biocatalytic processes.

Computational Chemistry Research Topics

Computational Chemistry Research Topics are as follows:

Development and application of machine learning algorithms for predicting chemical reactions and properties.
Investigation of the role of solvents in chemical reactions using molecular dynamics simulations.
Modeling and simulation of protein-ligand interactions to aid drug design.
Study of the electronic structure and reactivity of catalysts for sustainable energy production.
Analysis of the thermodynamics and kinetics of complex chemical reactions using quantum chemistry methods.
Exploration of the mechanism and kinetics of enzyme-catalyzed reactions using molecular dynamics simulations.
Investigation of the properties and behavior of nanoparticles using computational modeling.
Development of computational tools for the prediction of chemical toxicity and environmental impact.
Study of the electronic properties of graphene and other 2D materials for applications in electronics and energy storage.
Investigation of the mechanisms of protein folding and aggregation using molecular dynamics simulations.
Development and optimization of computational methods for calculating thermodynamic properties of liquids and solids.
Study of the properties of supercritical fluids for applications in separation and extraction processes.
Development of new methods for the calculation of electron transfer rates in complex systems.
Investigation of the electronic and mechanical properties of carbon nanotubes for applications in nanoelectronics and nanocomposites.
Development of new approaches for modeling the interaction of biomolecules with biological membranes.
Study of the mechanisms of charge transfer in molecular and hybrid solar cells.
Analysis of the structural and mechanical properties of materials under extreme conditions using molecular dynamics simulations.
Development of new approaches for the calculation of free energy differences in complex systems.
Investigation of the reaction mechanisms of metalloenzymes using quantum mechanics/molecular mechanics (QM/MM) methods.
Study of the properties of ionic liquids for applications in catalysis and energy storage.

Theoretical Chemistry Research Topics

Theoretical Chemistry Research Topics are as follows:

Quantum Chemical Studies of Excited State Processes in Organic Molecules
Theoretical Investigation of Structure and Reactivity of Metal-Organic Frameworks
Computational Modeling of Reaction Mechanisms and Kinetics in Enzyme Catalysis
Theoretical Investigation of Non-Covalent Interactions in Supramolecular Chemistry
Quantum Chemical Studies of Photochemical Processes in Organic Molecules
Theoretical Analysis of Charge Transport in Organic and Inorganic Materials
Computational Modeling of Protein Folding and Dynamics
Quantum Chemical Investigations of Electron Transfer Processes in Complex Systems
Theoretical Studies of Surface Chemistry and Catalysis
Computational Design of Novel Materials for Energy Storage Applications
Theoretical Analysis of Chemical Bonding and Molecular Orbital Theory
Quantum Chemical Investigations of Magnetic Properties of Complex Systems
Computational Modeling of Biological Membranes and Transport Processes
Theoretical Studies of Nonlinear Optical Properties of Molecules and Materials
Quantum Chemical Studies of Spectroscopic Properties of Molecules
Theoretical Investigations of Reaction Mechanisms in Organometallic Chemistry
Computational Modeling of Heterogeneous Catalysis
Quantum Chemical Studies of Excited State Dynamics in Photosynthesis
Theoretical Analysis of Chemical Reaction Networks
Computational Design of Nanomaterials for Biomedical Applications

Astrochemistry Research Topics

Astrochemistry Research Topics are as follows:

Investigating the chemical composition of protoplanetary disks and its implications for planet formation
Examining the role of magnetic fields in the formation of complex organic molecules in space
Studying the effects of interstellar radiation on the chemical evolution of molecular clouds
Exploring the chemistry of comets and asteroids to better understand the early solar system
Investigating the origin and evolution of interstellar dust and its relationship to organic molecules
Examining the formation and destruction of interstellar molecules in shocked gas
Studying the chemical processes that occur in the atmospheres of planets and moons in our solar system
Exploring the possibility of life on other planets through astrobiology and astrochemistry
Investigating the chemistry of planetary nebulae and their role in the evolution of stars
Studying the chemical properties of exoplanets and their potential habitability
Examining the chemical reactions that occur in the interstellar medium
Investigating the chemical composition of supernova remnants and their impact on the evolution of galaxies
Studying the chemical composition of interstellar grains and their role in the formation of stars and planets
Exploring the chemistry of astrocytes and their role in the evolution of galaxies
Investigating the formation of interstellar ice and its implications for the origin of life
Examining the chemistry of molecular clouds and its relationship to star formation
Studying the chemical composition of the interstellar medium in different galaxies and how it varies
Investigating the role of cosmic rays in the formation of complex organic molecules in space
Exploring the chemical properties of interstellar filaments and their relationship to star formation
Studying the chemistry of protostars and the role of turbulence in the formation of stars.

Geochemistry Research Topics

Geochemistry Research Topics are as follows:

Understanding the role of mineralogical and geochemical factors on metal mobility in contaminated soils
Investigating the sources and fate of dissolved organic matter in aquatic systems
Exploring the geochemical signatures of ancient sedimentary rocks to reconstruct Earth’s past atmospheric conditions
Studying the impacts of land-use change on soil organic matter content and quality
Investigating the impact of acid mine drainage on water quality and ecosystem health
Examining the processes controlling the behavior and fate of emerging contaminants in the environment
Characterizing the organic matter composition of shale gas formations to better understand hydrocarbon storage and migration
Evaluating the potential for carbon capture and storage in geologic formations
Investigating the geochemical processes controlling the formation and evolution of ore deposits
Studying the geochemistry of geothermal systems to better understand energy production potential and environmental impacts
Exploring the impacts of climate change on the biogeochemistry of terrestrial ecosystems
Investigating the geochemical cycling of nutrients in coastal marine environments
Characterizing the isotopic composition of minerals and fluids to understand Earth’s evolution
Developing new analytical techniques to better understand the chemistry of natural waters
Studying the impact of anthropogenic activities on the geochemistry of urban soils
Investigating the role of microbial processes in geochemical cycling of elements in soils and sediments
Examining the impact of wildfires on soil and water chemistry
Characterizing the geochemistry of mineral dust and its impact on climate and biogeochemical cycles
Investigating the geochemical factors controlling the release and transport of contaminants from mine tailings
Exploring the biogeochemistry of wetlands and their role in carbon sequestration and nutrient cycling.

Electrochemistry Research Topics

Electrochemistry Research Topics are as follows:

Development of high-performance electrocatalysts for efficient electrochemical conversion of CO2 to fuels and chemicals
Investigation of electrode-electrolyte interfaces in lithium-ion batteries for enhanced battery performance and durability
Design and synthesis of novel electrolytes for high-energy-density and stable lithium-sulfur batteries
Development of advanced electrochemical sensors for the detection of trace-levels of analytes in biological and environmental samples
Analysis of the electrochemical behavior of new materials and their electrocatalytic properties in fuel cells
Study of the kinetics of electrochemical reactions and their effect on the efficiency and selectivity of electrochemical processes
Development of novel strategies for the electrochemical synthesis of value-added chemicals from biomass and waste materials
Analysis of the electrochemical properties of metal-organic frameworks (MOFs) for energy storage and conversion applications
Investigation of the electrochemical degradation mechanisms of polymer electrolyte membranes in fuel cells
Study of the electrochemical properties of 2D materials and their applications in energy storage and conversion devices
Development of efficient electrochemical systems for desalination and water treatment applications
Investigation of the electrochemical properties of metal-oxide nanoparticles for energy storage and conversion applications
Analysis of the electrochemical behavior of redox-active organic molecules and their application in energy storage and conversion devices
Study of the electrochemical behavior of metal-organic frameworks (MOFs) for the catalytic conversion of CO2 to value-added chemicals
Development of novel electrode materials for electrochemical capacitors with high energy density and fast charge/discharge rates
Investigation of the electrochemical properties of perovskite materials for energy storage and conversion applications
Study of the electrochemical behavior of enzymes and their application in bioelectrochemical systems
Development of advanced electrochemical techniques for the characterization of interfacial processes in electrochemical systems
Analysis of the electrochemical behavior of nanocarbons and their application in electrochemical energy storage devices
Investigation of the electrochemical properties of ionic liquids for energy storage and conversion applications.

Surface Chemistry Research Topics

Surface Chemistry Research Topics are as follows:

Surface modification of nanoparticles for enhanced catalytic activity
Investigating the effect of surface roughness on the wetting behavior of materials
Development of new materials for solar cell applications through surface chemistry techniques
Surface chemistry of graphene and its applications in electronic devices
Surface functionalization of biomaterials for biomedical applications
Characterization of surface defects and their effect on material properties
Surface modification of carbon nanotubes for energy storage applications
Developing surface coatings for corrosion protection of metals
Synthesis of self-assembled monolayers on surfaces for sensor applications
Surface chemistry of metal-organic frameworks for gas storage and separation
Investigating the role of surface charge in protein adsorption
Developing surfaces with superhydrophobic or superoleophobic properties for self-cleaning applications
Surface functionalization of nanoparticles for drug delivery applications
Surface chemistry of semiconductors and its effect on photovoltaic properties
Development of surface-enhanced Raman scattering (SERS) substrates for trace analyte detection
Surface functionalization of graphene oxide for water purification applications
Investigating the role of surface tension in emulsion formation and stabilization
Surface modification of membranes for water desalination and purification
Synthesis and characterization of metal nanoparticles for catalytic applications
Development of surfaces with controlled wettability for microfluidic applications.

Atmospheric Chemistry Research Topics

Atmospheric Chemistry Research Topics are as follows:

The impact of wildfires on atmospheric chemistry
The role of aerosols in atmospheric chemistry
The chemistry and physics of ozone depletion in the stratosphere
The chemistry and dynamics of the upper atmosphere
The impact of anthropogenic emissions on atmospheric chemistry
The role of clouds in atmospheric chemistry
The chemistry of atmospheric particulate matter
The impact of nitrogen oxides on atmospheric chemistry and air quality
The effects of climate change on atmospheric chemistry
The impact of atmospheric chemistry on climate change
The chemistry and physics of atmospheric mercury cycling
The impact of volcanic eruptions on atmospheric chemistry
The chemistry and physics of acid rain formation and effects
The role of halogen chemistry in the atmosphere
The chemistry of atmospheric radicals and their impact on air quality and health
The impact of urbanization on atmospheric chemistry
The chemistry and physics of stratospheric polar vortex dynamics
The role of natural sources (e.g. ocean, plants) in atmospheric chemistry
The impact of atmospheric chemistry on the biosphere
The chemistry and dynamics of the ozone hole over Antarctica.

Photochemistry Research Topics

Photochemistry Research Topics are as follows:

Investigating the mechanisms of photoinduced electron transfer reactions in organic photovoltaic materials.
Developing novel photoredox catalysts for photochemical reactions.
Understanding the effects of light on DNA and RNA stability and replication.
Studying the photochemistry of atmospheric pollutants and their impact on air quality.
Designing new photoresponsive materials for advanced photonic and electronic devices.
Exploring the photochemistry of metalloporphyrins for potential applications in catalysis.
Investigating the photochemistry of transition metal complexes and their use as photodynamic therapy agents.
Developing new photocatalytic systems for sustainable energy production.
Studying the photochemistry of natural products and their potential pharmaceutical applications.
Investigating the role of light in the formation and degradation of environmental contaminants.
Designing new photochromic materials for smart windows and displays.
Exploring the photochemistry of carbon nanomaterials for energy storage and conversion.
Developing new light-driven molecular machines for nanotechnology applications.
Investigating the photochemistry of organic dyes for potential applications in dye-sensitized solar cells.
Studying the effects of light on the behavior of biological macromolecules.
Designing new photoresponsive hydrogels for drug delivery applications.
Exploring the photochemistry of semiconductor nanoparticles for potential applications in quantum computing.
Investigating the mechanisms of photochemical reactions in ionic liquids.
Developing new photonic sensors for chemical and biological detection.
Studying the photochemistry of transition metal complexes for potential applications in water splitting and hydrogen production.

About the author

Muhammad Hassan

Researcher, Academic Writer, Web developer

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Survey of Ph.D. Programs in Chemistry

By Joel Shulman

How does your chemistry Ph.D. program compare to others in terms of department size and student demographics? Requirements for the degree? Graduate student progression and support? Developing skills that go beyond knowledge of chemistry? Answers to these questions and many others can be gleaned from the Survey of Ph.D. Programs in Chemistry recently reported by the ACS Committee on Professional Training (CPT) . Highlights of the survey are given here.

View the full report

The primary objective of the CPT is to facilitate the maintenance and improvement of the quality of chemical education at the postsecondary level. Not only does the Committee develop and administer the guidelines that define high-quality undergraduate education, but it also produces resources such as the ACS Directory of Graduate Education and publishes data on undergraduate and graduate education. Approximately every ten years, CPT fields a survey of Ph.D. programs. The latest survey solicited data from all 196 Ph.D. programs in chemistry and received usable information (base year, 2007) from 139 of these programs.

Figure 1. Size Distribution of Ph.D. Programs

Program size and demographics of students

The 139 reporting Ph.D. programs are divided for purposes of comparison into three groups of approximately equal size according to the total number of graduate students in the program: 44 small (defined as 0 to 40 total graduate students), 46 medium (41 to 105 graduate students), and 49 large programs (106+ graduate students). The number of students in Ph.D. programs ranges from 0 to 394 (see Figure 1) with a total of 13,280 students. Eighteen departments have more than 200 students, accounting for more than one-third (4,460) of the total graduate students in chemistry. The 30 largest programs account for almost 50% of graduate students. The average program size is 96 students (and 23 faculty), while the median program size is 67 students.

Of the doctoral students in responding programs, 27.4% are women, 5.2% are underrepresented minorities, and 42.3% are international students (Table 1). Small programs tend to have a higher percentage of underrepresented minority students (averaging 7.8%), while large programs have a higher percentage of women (28.5%) and a lower percentage of international students (37.3%).

Table 1. Demographics of Graduate Students by Program Size

Requirements for degree (table 2).

Of course, a doctoral dissertation is required by all Ph.D. programs. Most (71%) graduate programs require entering graduate students to take placement exams, although this requirement tends to be less prevalent as program size increases. The average program requires a minimum of 20 credits (semester hours, corrected for programs on the quarter system) of coursework, a number that does not vary significantly by program size. In addition to course work and dissertation, 96% of programs require at least one of the following: cumulative examinations (58%), an oral preliminary exam (54%), a comprehensive oral exam (50%), and/or a comprehensive written exam (31%). All four of these exams are required by 7% of programs; 17% of programs require three; 43% of programs require two; and 28% require only one. Large programs require cumulative exams less often and oral exams more often than small or medium programs. Only four programs (3%) require students to pass a language exam for the Ph.D.

Table 2. Requirement in Ph.D. Program

Graduate student progression and support (table 3).

The mean time to the Ph.D. is 5.1 years, a number that varies neither by program size nor by public vs. private institution (data not shown). Most programs place a limit on the amount of time allowed to achieve a Ph.D. (average of 7.8 years) as well as on the number of years of departmental support allowed a student (average of 5.9 years). More than 80% of students choose a research advisor within six months of entering graduate school. A significant number of programs either require or permit laboratory rotations before a final advisor is selected.

Monetary support for Ph.D. students comes from teaching assistantships more often than from research assistantships at small and medium programs, while the reverse is true in large programs. There is wide variation in TA stipends, depending on both program size and geographic location. Most programs have a range of stipends, which on average run from $18,000 to about $20,000 per year. Teaching assistants at larger programs are more likely to teach discussion (recitation) sections than those in small or medium programs.

Table 3. Student Progression and Support in Ph.D. Programs

Developing student skills.

In addition to chemistry knowledge and laboratory skills, it is important that all Ph.D. chemists develop skills in areas such as critical thinking, oral and written communication, and teamwork. Toward this end, 74% of all programs require students to create and defend an original research proposal (Table 2). All but six programs require students to make presentations (exclusive of the thesis defense) to audiences other than their research group; the average number of required presentations is 2.4, with little variation by program size. When asked whether any graduate students receive student-skills training outside of formal course work, 67% responded that at least some students receive specific training in communications; 59% in ethics/scientific integrity; 43% in grant writing; 37% in mentoring; 37% in intellectual property/patents; and 18% in business/economics. Students in large programs are more likely to receive some training in these skill areas than are students in other programs.

The data from this CPT survey provide a snapshot of graduate student demographics, requirements for the degree, and progression and support in chemistry Ph.D. programs. Survey results highlight similarities and differences among small, medium, and large programs across the country.

Dr. Joel I. Shulman retired as The Procter & Gamble Company's Manager of Doctoral Recruiting and University Relations in 2001 and is now an adjunct professor of chemistry at the University of Cincinnati. He serves the ACS as a consultant for the Office of Graduate Education and the Department of Career Management and Development and as a member of the Committee on Professional Training.

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10 Top PhD Programs in Chemistry in 2024

A PhD program in Chemistry can equip you with a range of professional skills and advanced knowledge in the field. With a doctorate in chemistry on your resume, you’ll be able to find prestigious jobs in research labs, industry, academia, or government.

According to the Bureau of Labor Statistics, the median annual salary of chemists and material scientists is $79,760 , and jobs are estimated to grow by 6% over the next decade, in line with growth prospects for all professions.

Which of the best PhD programs in Chemistry is right for you?

Read on to learn about the best programs, including essential information like tuition, acceptance rates, and whether you can get a degree online or not.

Table of Contents

Top PhD Programs in Chemistry

1. massachusetts institute of technology.

PhD in Chemistry

Massachusetts Institute of Technology has been ranked first in the nation for Chemistry, so it’s no surprise that this is one of the best PhD in Chemistry programs. The program is flexible because students can choose courses based on their long-term research goals.

Courses include: Principles of inorganic chemistry, crystal structure refinement, and heterocyclic chemistry.
Credits: 48
Duration: 4 years +
Tuition: Full funding
Financial aid: Fellowships, teaching assistantships, and research assistantships.
Delivery: On-campus
Acceptance rate: 7.3%
Location: Cambridge, Massachusetts

2. Stanford University, School of Humanities and Sciences

Stanford University is one of the world’s leading research institutions with innovative and flexible programs. This chemistry PhD program is world-class with a cross-disciplinary approach, collaborating with various other departments and institutes.

Courses include: Advanced inorganic chemistry, organic polyfunctional compounds, and chemical principles.
Duration: 5 years
Tuition: Refer tuition page
Financial aid: Research assistantship, teaching assistantship, fellowships, grants, and loans.
Acceptance rate: 5.2%
Location: Stanford, California

3. California Institute of Technology, Division of Chemistry and Chemical Engineering

Caltech’s Division of Chemistry and Chemical Engineering is renowned for its large number of faculty members conducting leading research in chemistry, biochemistry, and chemical engineering. This chemistry doctoral program aims to develop students’ creative and original research abilities.

Courses include: Bioinorganic chemistry, organic reaction mechanisms, and advanced quantum chemistry.
Duration: 5.5 years average
Tuition : $56,364
Financial aid: Scholarships, grants, work-study, fellowships, assistantships, and loans.
Acceptance rate: 6.7%
Location: Pasadena, California

4. Harvard University, The Graduate School of Arts and Sciences

PhD in Chemistry and Chemical Biology

Harvard University’s faculty in the Chemistry and Chemical Biology division includes several Nobel and Welch Award laureates conducting research in various areas of interest in chemistry. In this PhD program for chemistry, students can pursue interdisciplinary research in various institutes and research centers in the Boston area.

Courses include: Advanced organic chemistry, materials chemistry, and advanced inorganic chemistry.
Duration: 5-6 years
Tuition: Full funding
Financial aid: Scholarships, research assistantships, and fellowships.
Acceptance rate: 5%

5. Northwestern University, Weinberg College of Arts and Sciences

Northwestern University’s Weinberg College of Arts and Sciences emphasizes interdisciplinary thinking that is adaptive, flexible, and practical in the context of the modern world. This chemistry PhD program aims to provide students with a strong foundation in chemistry and valuable exposure to research projects important to wider society.

Courses include: Organic chemistry, physical/analytical chemistry, and biological chemistry.
Financial aid: Fellowships, graduate assistantships, and loans.
Acceptance rate: 9.3%
Location: Evanston, Illinois

6. Yale University, Department of Chemistry

Yale is one of the most acclaimed universities in the world, with a diverse student population, including 22% international students from a total of 115 different nations . This flexible PhD chemistry program allows students to choose their areas of study based on their research subjects rather than maintaining a rigid course list.

Courses include: Fundamentals of transition metal chemistry, bioinorganic spectroscopy, and organic structures & energetics.
Financial aid: Stipends, fellowships, and grants.
Acceptance rate: 6.5%
Location: New Haven, Connecticut

7. The University of Chicago, Department of Chemistry

The chemistry department was one of the University of Chicago’s first departments to be inaugurated and currently has a strong faculty in organic, inorganic, and physical chemistry, as well as interdisciplinary studies. This is also one of the most flexible Chemistry PhD programs in the country, allowing you to study from different departments as well as giving you the freedom to choose your areas of study.

Courses include: Complex chemical systems, chemical biology, and chemical dynamics.
Tuition : $63,936
Financial aid: Fellowships, research assistantships, health insurance, grants, scholarships, work-study, and loans.
Location: Chicago, Illinois

8. Princeton University, Department of Chemistry

Princeton University’s prestigious Frick Chemistry Laboratory encourages faculty and students to conduct collaborative and interdisciplinary research in the field. This doctorate degree in chemistry encourages students to pursue individualized studies and conduct original research in specific areas of chemistry.

Courses include: Advanced quantum chemistry, biophysical chemistry, and synthetic organic chemistry.
Tuition : $57,410
Financial aid: Assistantships, fellowships, work-study, veteran benefits, and loans.
Acceptance rate: 5.6%
Location: Princeton, New Jersey

9. The University of California, Berkeley, College of Chemistry

The University of California was founded with a vision for a better future and is well-known as a pioneer in various areas, including diversity and free speech. This graduate program offers three concentrations: physical chemistry, synthetic chemistry, and chemical biology.

Courses include: Chemical kinetics, coordination chemistry, and organic reactions.
Tuition : $14,476
Financial aid: Fellowships, teaching assistantships, research assistantships, grants, and loans.
Acceptance rate: 17.5%
Location: Berkeley, California

10. Cornell University, Department of Chemistry and Chemical Biology

Cornell’s Department of Chemistry and Chemical Biology has a history of discovery and innovation and boasts Nobel laureates as well as National Academy Members among its faculty. The TATP (Teaching Assistant Training Program) is an integral part of this PhD program, and a satisfactory performance in this program is a mandatory part of the doctorate.

Courses include: Engineering general chemistry, principles of organic chemistry, and physical chemistry of proteins.
Financial aid: Teaching assistantship, research assistantship, fellowships, grants, stipend, and health insurance.
Acceptance rate: 10.7%
Location: Ithaca, New York

What Do You Need To Get a PhD in Chemistry?

To be admitted as a PhD candidate , you’ll generally need a master’s in chemistry or a related field. As part of the application process, you’ll typically need to submit academic transcripts, letters of recommendation, GRE scores, and a personal statement or research proposal.

Other documentation may be required depending on the program you want to apply for, so check the requirements with the admissions office.

Most PhD in chemistry programs involve a mix of coursework, which may cover chemistry courses and related sciences, and a research thesis or dissertation.

To earn your doctorate in chemistry, you typically also need to participate in seminars, pass oral and written exams, and complete a teaching assistantship.

Preparing for a Chemistry Doctorate Program

A PhD in chemistry is a technical, relatively-difficult advanced degree, so it’s important to prepare well to get the best results. Ahead of commencing, or even applying for the program, familiarize yourself with the latest developments and research in the field.

It can be a good idea to join professional associations, take advantage of other networking opportunities, and seek out extra-curricular activities in the field. Practical experience can also be very valuable, so try to work in a lab if possible.

Things To Consider When Choosing a Chemistry PhD Program

There are a range of chemistry doctorate programs offered by different institutions and covering several different concentrations. Before choosing the right program for you, it’s important to carefully consider your interests, passions, and career goals in order to decide on your preferred area of study.

From there, look for strong programs in this discipline with renowned faculty specializing in your area of interest.

Other key factors to consider include the following:

Mode of delivery: on-campus, online, or hybrid
School location, accessibility, and affordability to live in the area if you’re planning on studying on campus
Program costs, including not only tuition but also fees and other expenses
Financial aid options

Why Get a Doctorate in Chemistry?

A PhD in chemistry is one of the most in-demand and highest-paying PhDs . Graduates with a PhD chemistry are highly employable, with most finding roles in private industry. According to Duke University , from their 242 candidates, 118 were employed in business/industry, and Boston University also tells us that most PhD Chemistry holders are employed in the private sector.

The benefits of studying for a doctorate in chemistry include:

High level of prestige
Many chemistry PhD programs are fully-funded or offer access significant to financial aid
Wide range of job prospects in academia, research, and management
Access to senior leadership positions and opportunities to manage research projects

Jobs you can land with a PhD in Chemistry include:

Post-doctoral Research Assistant ( $52,672 )
Chemical Materials Scientist ( $130,008 )
Professor of Chemistry ( $94,914 )
Development Chemist ( $59,802 )
Director of Research ( $107,150 )

The tuition for a PhD in chemistry can range from $10,000 to $70,000 based on various factors, with public schools being much more affordable than private schools. On top of tuition, you also need to consider other expenses, such as fees, study materials, and living expenses. However, many chemistry doctorates offer scholarships, grants, and even full funding.

For most programs, you’ll take around five years to complete a chemistry PhD when studying full-time. However, it can take up to seven years or even longer in some cases.

What Skills Do You Gain When Doing a Ph.D. in Chemistry?

You’ll build a range of advanced skills as part of a PhD in Chemistry program, most notably:

Research skills
Communication skills
Critical thinking skills
Mentoring and teaching skills
Leadership skills
Organizational skills

PhD in Chemistry FAQs

How long does a phd in chemistry take.

A PhD in Chemistry takes five years to complete on average, though the duration can typically be anywhere between three and seven years.

Which Field of Chemistry Is Best for a PhD?

There is no single field that is best for a PhD in Chemistry. The best option for you will depend on your preferences, interests, and career ambitions. Common specializations include organic, inorganic, physical, analytical, and computational chemistry.

What Can You Do With a PhD in Chemistry?

A PhD in chemistry is typically considered the most advanced degree in this scientific field and opens up a range of positions in academia, research, and the private sector. Positions for graduates with PhD doctorates include lecturers, professors, research leaders, environmental scientists, and materials scientists.

Is It Hard To Get a PhD in Chemistry?

Given that chemistry is a highly technical field and a PhD is an advanced degree, it’s not surprising that a PhD in chemistry is an in-depth, involved, and relatively-challenging degree. There’s no denying that you’ll need a background in the field and a certain degree of dedication to earn your doctorate in chemistry, but it’s certainly not impossible with some hard work and a little passion!

Key Takeaways

A PhD in chemistry is a valuable, advanced degree that opens up a wide range of career prospects, including senior-level positions in research, industry, and academia. There are a number of high-quality PhD programs in chemistry offered by renowned institutions across the country, covering a range of disciplines and including both on-campus and online programs .

Be clear on your areas of interest and career objectives, do your research to choose the best program for you, and you can’t go wrong!

For more options, look at our guide to the best online PhD programs , or if you’re ready to start preparing your application, check out our ultimate grad school test guide .

Lisa Marlin

Lisa is a full-time writer specializing in career advice, further education, and personal development. She works from all over the world, and when not writing you'll find her hiking, practicing yoga, or enjoying a glass of Malbec.

Lisa Marlin https://blog.thegradcafe.com/author/lisa-marlin/ 12 Best Laptops for Computer Science Students
Lisa Marlin https://blog.thegradcafe.com/author/lisa-marlin/ ACBSP Vs AACSB: Which Business Program Accreditations is Better?
Lisa Marlin https://blog.thegradcafe.com/author/lisa-marlin/ BA vs BS: What You Need to Know [2024 Guide]
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With a graduate degree in chemistry, scientists may find jobs in laboratories, government agencies, research institutions, pharmaceutical companies, colleges and universities, and more. These are the best chemistry schools. Each school's score reflects its average rating on a scale from 1 (marginal) to 5 (outstanding), based on a survey of academics at peer institutions. Read the methodology »

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FALL SEMESTER

CHE 504: Structure and Reactivity in Organic Chemistry

CHE 511: Structural Inorganic Chemistry CHE 518: Materials Chemistry

CHE 521: Quantum Chemistry 1 CHE 523: Chemical Thermodynamics (xlisted with ESM 511)

CHE 534: Computing in Chemistry

CHE 535: Introduction to Computational Structural Biology (xlisted with AMS 535) CHE 541: Biomolecular Structure and Analysis CHE 558: Physical Biology

CHE 591: Chemistry in Society

CHE 603: Special Topics in Bio-organic Chemistry CHE 607: Modern Drug Design and Discovery CHE 619: Readings of Topics in Chemistry

CHE 694: Biological Chemistry Seminar CHE 696: Organic Chemistry Seminar CHE 698: Colloquium

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CHE 501: Instrumental Methods CHE 502: Mechanistic Organic Chemistry CHE 503: Synthetic Organic Chemistry

CHE 514: Transition Metal Chemistry

CHE 519: Electrochemistry

CHE 522: Molecular Spectroscopy CHE 530: Physical Chemistry of Macromolecules

CHE 536: Molecular Modeling of Biological Molecules (xlisted with AMS 536) CHE 542: Chemical Biology CHE 543: Chemical Approaches to Biology CHE 559: Biological Dynamics and Networks

CHE 619: Readings of Topics in Chemistry CHE 693: Physical/Inorganic/Materials Chemistry Seminar CHE 694: Biological Chemistry Seminar CHE 696: Organic Chemistry Seminar CHE 698: Colloquium

For course descriptions, please see the Graduate Bulletin .

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Ch 6: Qualification and Advancement to Candidacy
Ch 7: Third Meeting and Proposal Defense
Ch 8: Course Requirements
Ch 9: Seminars
Ch 10: Dissertation
Ch 11: Financial Support
Ch 12: Good Standing
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ALL Ph.D. Highlights

Doctor of Chemistry (D.Chem.) Degree Programs provide advanced-level education in Chemistry for students wishing to pursue careers as research scientists, professors, and/or industry professionals.

Students enrolled in D.Chem. programs explore research topics such as green chemistry, advanced biochemistry, and physical chemistry through advanced lab techniques and case studies.

The challenging path to earning a Doctorate of Chemistry degree demands hours of laboratory work and classroom lectures–and all these render distance learning unfeasible. The traditional educational setup ensures quality education for future research scientists.

If the fees related to accommodation and living expenses make you rethink pursuing this career, worry not because almost all institutions offer scholarships to worthy applicants.

The Doctor of Chemistry (D. Chem) is a rare title awarded by some universities. The most popular degree is “Doctor of Philosophy in Chemistry (Ph.D. Chem.)”. The academic degree “Doctor of Science in Chemistry (D.Sci. Chem.)” is also another equivalent title.

10 Best Doctor of Chemistry (D.Chem.) Degree Programs

University of oregon.

DOCTORAL PROGRAM IN CHEMISTRY

School Highlights:

The University of Oregon allows Doctor of Chemistry students to engage in research, not just in chemistry but across a diverse breadth of disciplines.

The doctoral program encourages collaboration with researchers from other fields that’s why it offers various interdepartmental opportunities to work on.

Choose from a selection of concentrations that outline the Department of Chemistry and Biochemistry’s commitment to the discipline. Throughout your program, you’ll be exposed to research rotations, teaching opportunities, and lab work. Chemistry tutors can provide personalized guidance and support to help you excel in your studies and achieve your academic goals.

The University of Oregon maintains a state-of-the-art science complex with high-tech laboratory equipment, which are available to doctoral students and their independent pursuits. The entire school provides a collaborative and supportive atmosphere that nurtures skills in leadership and innovation.

Additionally, the curriculum offers internships to expose its Ph.D. students in different industries environments and private sectors. Graduates go on to pursue successful careers in various institutions including government agencies, research facilities, and academic institutions.

Concentration Options:

Biochemistry
Molecular Biology and Biophysical Chemistry
Organic-Inorganic Chemistry
Physical Chemistry

Campus Location: Eugene, OR

Accreditation:

Northwest Commission on Colleges and Universities 8060 165th Avenue NE, Suite 200 Redmond, Washington 98052 www.nwccu.org, (205) 525-9848

Did You Know? The University of Oregon is situated in Eugene, Oregon, which is surrounded by a view of the mountains and the coast. This allows the students to participate in different outdoor programs like biking, adventure trips, and river rafting. You’ll also get the chance to join environmental activities like trail restorations and clean-ups.

LEARN MORE ABOUT THE UNIVERSITY OF OREGON’S DOCTORAL PROGRAM IN CHEMISTRY

MICHIGAN STATE UNIVERSITY

CHEMISTRY, PH.D.

School Highlights: Michigan State University houses a well-funded Department of Chemistry that offers one of the most dynamic Chemistry Ph.D. programs in the country.

The curriculum includes a wide range of topics in Chemistry, imparting foundational knowledge while introducing new scientific concepts and research applications.

You’ll be dealing with courses in analytical, organic, and physical chemistry. Plus, work on interdisciplinary topics such as spectroscopy, polymers, and material science.

The Chemistry Building is home to an incredibly impressive array of research equipment and laboratories, such as the Superconducting Cyclotron Laboratory and the Shard Laser Facility. The university grants over $9 million for research funding which makes this program even more attractive.

Financial opportunities at MSU are also abundant, offering different grants, scholarships, fellowships, and assistantships. Doctoral students work closely with their expert faculty members and produce outstanding research findings that are often printed in major scientific publications.

Analytical Chemistry
Biological Chemistry
Chemical Physics
Inorganic Chemistry
Nuclear Chemistry
Organic Chemistry
Theoretical and Computational Chemistry

Campus Location: East Lansing, MI

Higher Learning Commission 230 South LaSalle Street, Suite 7-500 Chicago, Illinois 60604 www.hlcommission.com, (800) 621-7440

Did You Know? Michigan State University has garnered a lot of recognition since its establishment in 1855. Throughout the years, the university has perfected its graduate programs which have landed on top of different academic rankings. MSU currently ranks number one for graduate programs in Nuclear Physics, Secondary Education, and Rehabilitation Counseling according to the U.S. News and World Report.

LEARN MORE ABOUT MICHIGAN STATE UNIVERSITY’S CHEMISTRY, PH.D.

UNIVERSITY OF HOUSTON

At the University of Houston, students taking up a doctoral degree in chemistry will get the chance to explore different areas of chemistry while improving their research and analytical skills.

Be mentored by competent and internationally recognized faculty members who encourage interdisciplinary research and collaboration. You’ll also get the chance to assist them during intensive research projects, which offer an astoundingly rich academic experience.

Located in a hub for scientific and entrepreneurial opportunities, the campus provides opportunities to connect to global corporations and national laboratories throughout Houston.

During admission, students must choose a division that best aligns with their academic standing and career goals. Division options include Organic, Inorganic, and Physical Chemistry. Each division comprises 18 credit hours but differs in core courses and electives.

Additionally, you’ll be required to participate in seminars and finish a Ph.D. dissertation to earn your degree. After graduation, you’ll be qualified to hold high-level positions of employment in government and industry labs and even pursue a teaching career in prestigious universities.

Coursework Sample:

Thermodynamics and Kinetics
Physical Inorganic Chemistry
Quantum Chemistry
Molecular Spectroscopy
Organometallic Chemistry

Campus Location: Houston, TX

Southern Association of Colleges and Schools Commission on Colleges (SACSCOC)

Did You Know? The University of Houston offers different on-campus facilities to make your student life more interesting. If you’re into sports, the Fertitta Center and TDECU Stadium are great venues to watch a match and support the Houston Cougars. Aside from a selection of restaurants, enjoy a stroll in the Lynn Eusan Park or enrich your creative side in the Blaffer Art Museum.

LEARN MORE ABOUT THE UNIVERSITY OF HOUSTON’S CHEMISTRY, PH.D.

UNIVERSITY OF CALIFORNIA, BERKELEY

CHEMISTRY PH.D. PROGRAM

School Highlights: The Chemistry Ph.D. program at UC Berkeley emphasizes on improving its enrollees’ research skills, driving them to explore creative and innovative means. The curriculum comprises of minimal course requirements since the program is geared towards research and independent study.

You’ll have three concentration options:

Physical Chemistry,
Chemical Biology,
and Synthetic Chemistry.

Although each one has a specific set of degree requirements, you’ll be able to create your own innovative and far-reaching chemistry projects. For example, those in the Physical Chemistry concentration may explore areas in analytical, biochemical, and nuclear chemistry.

The independent research project is the most essential part of the entire degree, aside from the teaching component. The Department of Chemistry requires all doctoral students to assist in an instructional program during the first three years of their residency. A

dditionally, stay updated with the latest research on chemistry and other areas in the scientific community by attending weekly seminars. You may also join small group discussions that encourage peer review and collaboration, The cumulative experiences at Berkeley are invaluable and will surely prepare you for high-level employment in the industry.

Quantum Mechanics
Interactions of Radiation with Matter
Statistical Mechanics
Group Theory

Campus Location: Berkeley, CA

Western Association of Schools and Colleges 533 Airport Boulevard, Suite 200 Burlingame, CA 94010 www.acswasc.org, (650) 696-1060

Did You Know? University Of California, Berkeley ensures that its students receive the best career options by providing different career services. Its Career Center offers different events and workshops to guide graduating individuals towards the professional world. Some activities include Career Fairs, Coaching, and Information Sessions.

LEARN MORE ABOUT THE UNIVERSITY OF CALIFORNIA, BERKELEY’S CHEMISTRY PH.D. PROGRAM

UNIVERSITY OF MISSISSIPPI

DOCTOR OF PHILOSOPHY IN CHEMISTRY

The University of Mississippi’s Department of Chemistry and Biochemistry offers some of the most sought-after programs in the field, including the Doctor of Philosophy Program in Chemistry. This 54-credit degree comprises of courses from the available concentrations including:

Biochemistry,
and Physical Chemistry.

It provides an in-depth learning experience and is designed to enhance your understanding of all of the traditional areas of the profession. To graduate, you’ll need to take four cumulative examinations, an oral examination, and a dissertation presentation and defense.

The University of Mississippi has strong ties to national agencies and labs such as NASA, the American Chemical Society, and the National Institute of Justice. Students often complete research projects in collaboration with these industries and expand their network in the process.

The program is perfect for Chemists seeking a career in education, working as an instructor or school labs, or government agencies that handle research and development. You may also pursue a career in the industrial industry and specialize in different chemistry vocations.

Advanced Instrumental Analysis
Physical Biochemistry
Advanced Organic Chemistry
Chemical Applications of Group Theory
Chemical Thermodynamics

Campus Location: Oxford, MS

Did You Know? The University of Mississippi is part of the R1: Doctoral Universities – Very High Research Activity list, which comprises of research universities classified through the Carnegie Classification of Institutions of Higher Education. Being part of this tier means that the institution produces many research resources and conducts the most research activities.

LEARN MORE ABOUT THE UNIVERSITY OF MISSISSIPPI’S DOCTOR OF PHILOSOPHY IN CHEMISTRY

FLORIDA INSTITUTE OF TECHNOLOGY

PH.D. IN CHEMISTRY

School Highlights: The Florida Institute of Technology prides itself on an incredibly diverse chemistry education environment. The Chemistry Ph.D. program is a combination of one-on-one mentorship, internships, and assistantships to maximize your learning potential.

Learn from some of the country’s most seasoned instructors and gain insights into different fields like Biotechnology, Disease Pathology, and Nanomaterials. Plus, work with other Chemists and expand your network through collaborative research projects and fieldwork.

Past projects have spanned a vast array of topics, such as degenerative disease approaches, DNA analysis, and chromosome replication.

Another reason to choose Floride Tech is its modern research facilities and laboratories. The F.W. Olin Physical Sciences Center is a 70,000 square foot research center that comprises different facilities that deal with research, microscopy, and photochemistry.

Additionally, Florida Tech has strong ties with the Harbor Branch Oceanographic Institute and Kennedy Space Center, which provides incredible opportunities for doctoral students.

Graduates will enter the industry with the needed skills and expertise to effect massive change in different industries including manufacturing, health, and alternative energy.

Interpretation of Chemical Spectra
Organic Synthesis
Natural Products

Campus Location: Melbourne, FL

Did You Know? Florida Institute of Technology prides itself in having a 92% employment rate after graduation. This shows the school produces capable graduates who are qualified to take on different roles and positions. Plus, most of the graduates receive a good paycheck, with some earning an average of $56,000 years after graduation.

LEARN MORE ABOUT FLORIDA TECH’S PH.D. IN CHEMISTRY

JOHNS HOPKINS UNIVERSITY

PH.D. DEGREE IN CHEMISTRY

School Highlights: The Chemistry Ph. D. degree program at Johns Hopkins University aims to align with its student’s academic backgrounds and professional goals. That’s why the program is comprised of different courses that will give you a broad understanding of different scientific concepts and research studies.

With this program, you’ll be hitting two birds with one stone as It allows you to earn both a master’s and Ph.D. in one curriculum. On top of the core courses, you’ll also be able to participate in a series of departmental seminars to further your technical expertise.

Towards the end of your program, you’ll also be required to do a thesis dissertation that aims to challenge you to think critically and independently. As a future frontrunner in the discipline, get the needed hands-on experience participating in a one-year teaching assistantship.

Additionally, the Department of Chemistry has different student organizations to help you expand your network and improve your extra-curricular experience. Ultimately, John Hopkins is a known institution for providing high-caliber graduates, so you can definitely look forward to a great career ahead of you!

Chemistry of Inorganic Compounds
Spectroscopy
Chemical Biology

Campus Location: Baltimore, MD

Middle States Commission on Higher Education 3624 Market Street, Suite 2 West Philadelphia, PA 19104 www.msche.org, (267) 284-5000

Did You Know? John Hopkins University’s Krieger School of Arts and Sciences offers a range of undergraduate and graduate programs, with over 60 majors and minors. The majority of its students participate in research, contributing to over 50 laboratories and institutes. Plus it has been receiving one of the largest research funding budgets for over four decades.

LEARN MORE ABOUT JOHNS HOPKINS UNIVERSITY’S PH.D. DEGREE IN CHEMISTRY

STANFORD UNIVERSITY

School Highlights: Stanford University is a well-respected academic institution offering a variety of programs ranging from undergraduate to doctorate ones. Its Ph.D. program in Chemistry is one to look out for. Stanford’s curriculum dives deep, going beyond the basic topics in chemistry.

You’ll be covering sub-disciplines like human health, biotechnology, and catalysis. You can choose from different majors including:

chemical physics,
inorganic chemistry,
and biophysical chemistry.

Aside from the prescribed graduate-level courses, you may take units from related fields such as chemical engineering and materials science.

You’ll also be exposed to a lot of data gathering and research work through a dissertation. Get the chance to work on testing new theories and developing new models on a molecular level. You’ll be mentored by top-notch instructors in the industry.

What’s more, you’ll receive academic advising so you’ll be properly guided during your research studies and dissertation. Get the guidance you need toward a successful career path in Chemistry. By developing a better understanding of the industry, you may pursue positions in both private and public institutions.

Coursework Sample: Stanford, CA

Advanced Physical Chemistry
Research and Special Advanced Work
Biophysical Chemistry
Chemical Principles
Bio-inorganic Chemistry

Campus Location:

Western Association of Schools and Colleges Senior College and University Commission (WSCUC)

Did You Know? Stanford University’s Department of Chemistry was one of the first few departments opened during its establishment in 1891. The department has since then been offering quality programs and has recently opened an interdisciplinary institute where Chemistry majors can collaborate with Engineering and Medical students. Chem-H hopes to spark advancement through research and forward-thinking.

LEARN MORE ABOUT STANDFORD UNIVERSITY’S PH.D. PROGRAM IN CHEMISTRY

UNIVERSITY OF AKRON

Students attending the University of Akron’s Doctor of Philosophy in Chemistry degree will be exposed to interdisciplinary education, covering different approaches in Chemistry and even touching topics in Biology and Physics. You’ll also get the chance to further improve your research and communication skills, which are vital in succeeding in the industry.

Learn from tenured faculty and conduct experiments in high-quality facilities such as the Mass Spectrometry Center and the Center for Laster & Optical Spectroscopy. Learn from excellent instructors and gain access to a selection of academic resources.

In terms of admissions, UA accepts students with a Master’s in Chemistry or any related field. On top of that, you’ll also need to submit recommendation letters and a statement of purpose to be admitted successfully. Students with good academic standing may have the chance to receive financial assistance.

The school also offers free tuition by participating in teaching or research assistantships for the academic year and summer. Well-seasoned graduates of Akron refine their skills as researchers, laboratory managers, and educators in chemistry.

Thermodynamics & Statistical Thermodynamics
X-Ray Crystallography
Enzymatic Reactions

Campus Location: Akron, OH

Higher Learning Commission of the North Central Association

Did You Know? The University of Akron got its name from the hilltop area which means the “highest point”. This name fits the university since it offers high-quality academic programs which attract over 10,000 enrollees every year. Some popular programs include Nursing, Marketing Management, and Psychology.

LEARN MORE ABOUT THE UNIVERSITY OF AKRON’S PH.D. IN CHEMISTRY.

MASSACHUSETTS INSTITUTE OF TECHNOLOGY

School Highlights: The Massachusetts Institute of Technology aims to produce outstanding leaders from different fields like science, engineering, and mathematics. In the same manner, MIT’s Chemistry Department aims to produce excellent graduates that can positively contribute to the industry.

The Ph.D. program offers both flexibility by letting you choose courses that you’re interested to take, and hands-on experience through a two-semester teaching assistant opportunity. In your first year, you’ll be given the chance to handle laboratory classes.

Aside from taking graduate-level courses, you’ll also be taking oral and written examinations, as well as working on postdoctoral research. Throughout your program, you’ll be guided by a thesis adviser to help you progress with your research. Additionally, the program involves desk rotations so you can connect with senior Ph.D. students while working on your coursework.

The department values networking and embracing advocacies. That’s why it’s home to several student organizations such as Women+ in Chemistry and Chemistry Alliance for Diversity and inclusion.

Synthetic Organic Chemistry
Principles of Organometallic Chemistry
Laboratory Chemistry
Heterocyclic Chemistry
Introductory Quantum Mechanics

Campus Location: Cambridge, MA

New England Commission of Higher Education (NECHE)

Did You Know? Massachusetts Institute of Technology was incorporated in 1861 and has been following a Latin motto, “mens et manus” which translates to “mind and hand”. This is a reflection of MIT’s educational style that involves practical applications, going beyond theoretical knowledge.

LEARN MORE ABOUT THE MASSACHUSETTS INSTITUTE OF TECHNOLOGY’S PH.D. IN CHEMISTRY.

What does a Chemist do?

A chemist is a scientist who studies the properties of matter at a molecular level. They observe and measure chemical reactions of compounds through experiments in laboratories.

Chemists also engage in fieldwork to collect data samples to be analyzed using sophisticated scientific instruments. In the modern world, chemists work in teams with scientists and professionals from other disciplines.

Advanced knowledge of chemistry may benefit different industries like manufacturing, waste management, and food production. Certain advancements in the health sector, like understanding hormones and the production of different medical drugs, may be attributed to the research work of chemists.

Chemists also work with engineers to develop new construction additives, materials testing and even help in environmental initiatives.

It is also important to note that chemists and chemical engineers are different. While both professions deal with chemicals, the latter focuses more on the application of principles of math and physics to produce new material that may benefit different industries, while chemists focus more on the organic, inorganic, and analytical aspects of the discipline. Additionally, chemists emphasize research and testing, while chemical engineers deal with design and production.

What sort of accreditation should I look for in a school?

If you’re looking for a chemistry program, one of the things that you should be looking at is its accreditation. Accreditation shows if the institution has met the academic standards set by the accrediting body. While these standards may differ, it’s a good gauge of the quality of education that the school provides.

In the United States, some accrediting agencies include the Southern Association of Colleges and Schools Commission on Colleges (SACSCOC), the Western Association of Schools and Colleges, and the Higher Learning Commission.

Chemistry doctorate programs are usually accredited by the American Chemical Society (ACS) while the Council of Higher Education Accreditation (CHEA) may also provide accreditation to interdisciplinary programs.

Ultimately, accreditation is just one of the many factors that you should consider when choosing an academic institution. It’s also important to check on the school’s facilities, learning setup, and employment rate.

How do I earn my D.Chem. Degree?

One of the major requisites for earning a doctorate in Chemistry is a master’s degree in the scientific field. Taking up a bachelor’s will create a solid foundation for your field, while a master’s will expose you to different complex processes and higher learning that may be applied to your Ph.D. pursuit.

Upon application, you may also need to undergo different examinations to assess your scientific knowledge and skills.

The graduate school committee might test you further, like requiring you to conduct sample research, before considering you for admission. Other documentation may include your statement of intent, recommendation letters, and official scores from the Graduate Record Examination (GRE) and TOEFL/IELTS if you are a non-native English speaker.

Graduate students attending doctorate programs in Chemistry revolve around classroom lectures, laboratory activities, and even fieldwork. Most programs offer specializations to focus more on a subfield and learn specific skillsets. You can choose from a selection of specializations including:

Thermochemistry
Medicinal Chemistry

Enrollees may also need to take prerequisite subjects in the coursework. In many cases, a graduate student may assist professors in their research work or teach in lower-level classes to further expose them to the field.

Like many Ph.D. programs, the dissertation is also necessary to complete the doctoral program. Most programs focus on independent research to encourage independent thinking, while some programs push for team research to enhance collaboration skills.

Earning a Chemistry doctorate degree program may take three years to finish, eight years at most. Bachelor’s degree holders may pursue a straight D.Chem. program to earn both a master’s and doctorate degree for a shorter period of time.

What type of degree do I need to pursue a teaching career in Chemistry?

Graduating with a Ph.D., D.Sci., or D.Chem degree may give you a huge advantage, especially when pursuing a teaching position. Some institutions require a doctoral degree, while some schools place Ph.D. holders on courses that deal with more complex theories and higher learning.

Pursuing higher education is also beneficial, especially when you’re looking into advancing in your teaching career. This also helps in tenure security and may give you an advantage when negotiating your salary. To put it simply, a doctoral degree may put you in a better position where you can help mold young learners while enjoying more work benefits.

Additionally, your doctoral research may help jumpstart your pathway to the academe since this may expose you to different academic conferences wherein you may build ties with academic leaders that may take interest in your capabilities for academic employment.

Why take a bridge program before pursuing a doctoral degree?

Undergraduate students in the field of Chemistry who are looking into pursuing higher education may take advantage of a bridge program. This program introduces a mix of foundational and graduate courses and usually takes a year to finish. With this, students may acquire fundamental knowledge and relevant skills to successfully earn graduate degrees like a Ph.D. or D.Chem.

Transitional programs also help students get the needed mentorship to properly assess their academic pathway. Here, you’ll get a glimpse of what’s in store for you if you pursue graduate studies.

Aside from theoretical courses, you may also be exposed to a lot of lab work and research to prepare you for dissertation and doctoral projects. You can shop now at Certified Scale for lab instruments like Sartorius scales.

What kind of career and salary can I expect with my D.Chem. Degree?

Chemists with doctorate-level degrees may work either in the academic or industrial setting, across different job positions. In the academic setting, D.Chem. holders may work as instructors and researchers. Professors and lab instructors may earn an average of $80,670 per year .

Chemists working in manufacturing and production companies may earn anywhere from $78,000 to $107,000 annually, while those involved in research agencies and private laboratories may take home $116,000 yearly. D.Chem graduates may also pursue a career in health, biochemistry, and forensic chemistry.

Do I need a license to be a Chemist?

A licensure exam is not required in the United States for those who want to work as chemists or chemical technicians. Chemists may use their diplomas as permits when procuring and transporting chemicals for experimental purposes. With this, chemists may still work on a research project or developmental work.

Furthermore, several US government agencies like the Food and Drug Authority (FDA) and the Department of Homeland Security (DHS) oversee the rules in transporting hazardous chemicals, keeping a close eye on those conducting research and handling chemicals.

However, chemists may apply for the certification program under the National Certification Commission in Chemistry and Chemical Engineering to be duly recognized by the agency while expanding their network of co-practitioners.

You may register as a Certifees-in-Training (CIT) for undergrad chemists, while graduate students may opt to become Annual Enrollees (AE).

What are some of the school services in store for doctoral degree students?

Most university’s PhD chemistry programs offer a range of student services that cater to both undergraduate and graduate students. Most institutions have academic support services through coaching or advising to fully guide you in your career path. Graduate students may benefit from this the most since they’ll need help in juggling both your professional work and academic pursuit.

Student organizations and social events are almost always present in schools as this helps in expanding your connections and improves your interpersonal skills. Being subjected to the stress of your job and schoolwork, you may turn to school counselors and mental health programs to improve your mental state.

Lastly, most academic institutions offer scholarship grants to applicants with good academic standing. Some schools offering grants include the University of Akron in Akron, OH; the University of Oregon in Eugene, OR; and Michigan State University in East Lansing MI. Other universities offer bridge programs to help maximize your learning potential.

The following schools bridge programs – John Hopkins University in Baltimore, MD; the University of Houston in Houston, TX; University of California Berkeley in Berkeley, CA; The University of Mississippi in Oxford, MS; and Florida Institute of Technology in Melbourne, FL.

Be the next Marie Curie or Alfred Nobel. Pursue a doctorate degree in Chemistry and be deployed to the frontline of this ambitiously experimental and solution-finding era of human civilization.

Is it hard to earn a Doctor of Chemistry (D.Chem.) Degree?

It depends on the individual. Generally, it is a very challenging degree to attain, requiring a high level of knowledge and expertise in the field. There may also be other requirements, such as research projects, dissertation requirements, additional coursework, internships, and specialized examinations. Earning a D.Chem. can take several years to complete.

The Bottom Line

Earning a Doctor of Chemistry graduate degree enables graduates the opportunity to participate in a graduate seminar and conduct independent research themselves, therefore providing awesome options for helping mankind in a wide variety of industries.

What are your career aspirations? With a D.Chem. degree, you can focus on physical chemistry, analytical chemistry, medicinal chemistry, organic chemistry, intensive research, and much more.

A chemistry degree graduate program is a great way to get that job promotion in research that you deserve.

Additional Information:

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The Best Doctor of Applied Science (D.A.S.) Degree Programs: Salary and Information
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Digital Commons @ USF > College of Arts and Sciences > Chemistry > Theses and Dissertations

Chemistry Theses and Dissertations

Theses/dissertations from 2023 2023.

aPKCs role in Neuroblastoma cell signaling cascades and Implications of aPKCs inhibitors as potential therapeutics , Sloan Breedy

Protein Folding Kinetics Analysis Using Fluorescence Spectroscopy , Dhanya Dhananjayan

Affordances and Limitations of Molecular Representations in General and Organic Chemistry , Ayesha Farheen

Institutional and Individual Approaches to Change in Undergraduate STEM Education: Two Framework Analyses , Stephanie B. Feola

Applications in Opioid Analysis with FAIMS Through Control of Vapor Phase Solvent Modifiers , Nathan Grimes

Synthesis, Characterization, and Separation of Loaded Liposomes for Drug Delivery , Sandra Khalife

Supramolecular Architectures Generated by Self-assembly of Guanosine and Isoguanosine Derivatives , Mengjia Liu

Syntheses, Photophysics, & Application of Porphyrinic Metal-Organic Frameworks , Zachary L. Magnuson

Chemical Analysis of Metabolites from Mangrove Endophytic Fungus , Sefat E Munjerin

Synthesis of Small Molecule Modulators of Non-Traditional Drug Targets , Jamie Nunziata

Synthetic Studies of Potential New Ketogenic Molecules , Mohammad Nazmus Sakib

Coupling Chemical and Genomic Data of Marine Sediment-Associated Bacteria for Metabolite Profiling , Stephanie P. Suarez

Enhanced Methods in Forensic Mass Spectrometry for Targeted and Untargeted Drug Analysis , Dina M. Swanson

Investigation of Challenging Transformations in Gold Catalysis , Qi Tang

Diazirines and Oxaziridines as Nitrogen Transfer Reagents in Drug Discovery , Khalilia C. Tillett

Developing New Strategy toward Ruthenium and Gold Redox Catalysis , Chenhuan Wang

Gold-Catalyzed Diyne-ene Cyclization: Synthesis of Hetero Polyaromatic Hydrocarbons and 1,2-Dihydropyridines , Jingwen Wei

Development of Antiviral Peptidomimetics , Songyi Xue

Theses/Dissertations from 2022 2022

Investigating a Potential STING Modulator , Jaret J. Crews

Exploring the Structure and Activity of Metallo-Tetracyclines , Shahedul Islam

Metabolomic Analysis, Identification and Antimicrobial Assay of Two Mangrove Endophytes , Stephen Thompson

Bioactivity of Suberitenones A and B , Jared G. Waters

Developing Efficient Transition Metal Catalyzed C-C & C-X Bond Construction , Chiyu Wei

Measurement in Chemistry, Mathematics, and Physics Education: Student Explanations of Organic Chemistry Reaction Mechanisms and Instructional Practices in Introductory Courses , Brandon J. Yik

Study on New Reactivity of Vinyl Gold and Its Sequential Transformations , Teng Yuan

Study on New Strategy toward Gold(I/III) Redox Catalysis , Shuyao Zhang

Theses/Dissertations from 2021 2021

Design, Synthesis and Testing of Bioactive Peptidomimetics , Sami Abdulkadir

Synthesis of Small Molecules for the Treatment of Infectious Diseases , Elena Bray

Social Constructivism in Chemistry Peer Leaders and Organic Chemistry Students , Aaron M. Clark

Synthesizing Laccol Based Polymers/Copolymers and Polyurethanes; Characterization and Their Applications , Imalka Marasinghe Arachchilage

The Photophysical Studies of Transition Metal Polyimines Encapsulated in Metal Organic Frameworks (MOF’s) , Jacob M. Mayers

Light Harvesting in Photoactive Guest-Based Metal-Organic Frameworks , Christopher R. McKeithan

Using Quantitative Methods to Investigate Student Attitudes Toward Chemistry: Women of Color Deserve the Spotlight , Guizella A. Rocabado Delgadillo

Simulations of H2 Sorption in Metal-Organic Frameworks , Shanelle Suepaul

Parallel Computation of Feynman Path Integrals and Many-Body Polarization with Application to Metal-Organic Materials , Brant H. Tudor

The Development of Bioactive Peptidomimetics Based on γ-AApeptides , Minghui Wang

Investigation of Immobilized Enzymes in Confined Environment of Mesoporous Host Matrices , Xiaoliang Wang

Novel Synthetic Ketogenic Compounds , Michael Scott Williams

Theses/Dissertations from 2020 2020

Biosynthetic Gene Clusters, Microbiomes, and Secondary Metabolites in Cold Water Marine Organisms , Nicole Elizabeth Avalon

Differential Mobility Spectrometry-Mass spectrometry (DMS-MS) for Forensic and Nuclear-Forensic applications , Ifeoluwa Ayodeji

Conversion from Metal Oxide to MOF Thin Films as a Platform of Chemical Sensing , Meng Chen

Asking Why : Analyzing Students' Explanations of Organic Chemistry Reaction Mechanisms using Lexical Analysis and Predictive Logistic Regression Models , Amber J. Dood

Development of Next-Generation, Fast, Accurate, Transferable, and Polarizable Force-fields for Heterogenous Material Simulations , Adam E. Hogan

Breakthroughs in Obtaining QM/MM Free Energies , Phillip S. Hudson

New Synthetic Methodology Using Base-Assisted Diazonium Salts Activation and Gold Redox Catalysis , Abiola Azeez Jimoh

Development and Application of Computational Models for Biochemical Systems , Fiona L. Kearns

Analyzing the Retention of Knowledge Among General Chemistry Students , James T. Kingsepp

A Chemical Investigation of Three Antarctic Tunicates of the Genus Synoicum , Sofia Kokkaliari

Construction of Giant 2D and 3D Metallo-Supramolecules Based on Pyrylium Salts Chemistry , Yiming Li

Assessing Many-Body van der Waals Contributions in Model Sorption Environments , Matthew K. Mostrom

Advancing Equity Amongst General Chemistry Students with Variable Preparations in Mathematics , Vanessa R. Ralph

Sustainable Non-Noble Metal based Catalysts for High Performance Oxygen Electrocatalysis , Swetha Ramani

The Role of aPKCs and aPKC Inhibitors in Cell Proliferation and Invasion in Breast and Ovarian Cancer , Tracess B. Smalley

Development of Ultrasonic-based Ambient Desorption Ionization Mass Spectrometry , Linxia Song

Covalent Organic Frameworks as an Organic Scaffold for Heterogeneous Catalysis including C-H Activation , Harsh Vardhan

Optimization of a Digital Ion Trap to Perform Isotope Ratio Analysis of Xenon for Planetary Studies , Timothy Vazquez

Multifunctional Metal-Organic Frameworks (MOFs) For Applications in Sustainability , Gaurav Verma

Design, Synthesis of Axial Chiral Triazole , Jing Wang

The Development of AApeptides , Lulu Wei

Chemical Investigation of Floridian Mangrove Endophytes and Antarctic Marine Organisms , Bingjie Yang

Theses/Dissertations from 2019 2019

An Insight into the Biological Functions, the Molecular Mechanism and the Nature of Interactions of a Set of Biologically Important Proteins. , Adam A. Aboalroub

Functional Porous Materials: Applications for Environmental Sustainability , Briana Amaris Aguila

Biomimetic Light Harvesting in Metalloporphyrins Encapsulated/Incorporated within Metal Organic Frameworks (MOFs). , Abdulaziz A. Alanazi

Design and Synthesis of Novel Agents for the Treatment of Tropical Diseases , Linda Corrinne Barbeto

Effect of Atypical protein kinase C inhibitor (DNDA) on Cell Proliferation and Migration of Lung Cancer Cells , Raja Reddy Bommareddy

The Activity and Structure of Cu2+ -Biomolecules in Disease and Disease Treatment , Darrell Cole Cerrato

Simulation and Software Development to Understand Interactions of Guest Molecules inPorous Materials , Douglas M. Franz

Construction of G-quadruplexes via Self-assembly: Enhanced Stability and Unique Properties , Ying He

The Role of Atypical Protein Kinase C in Colorectal Cancer Cells Carcinogenesis , S M Anisul Islam

Chemical Tools and Treatments for Neurological Disorders and Infectious Diseases , Andrea Lemus

Antarctic Deep Sea Coral and Tropical Fungal Endophyte: Novel Chemistry for Drug Discovery , Anne-Claire D. Limon

Constituent Partitioning Consensus Docking Models and Application in Drug Discovery , Rainer Metcalf

An Investigation into the Heterogeneity of Insect Arylalkylamine N -Acyltransferases , Brian G. O'Flynn

Evaluating the Evidence Base for Evidence-Based Instructional Practices in Chemistry through Meta-Analysis , Md Tawabur Rahman

Role of Oncogenic Protein Kinase C-iota in Melanoma Progression; A Study Based on Atypical Protein Kinase-C Inhibitors , Wishrawana Sarathi Bandara Ratnayake

Formulation to Application: Thermomechanical Characterization of Flexible Polyimides and The Improvement of Their Properties Via Chain Interaction , Alejandro Rivera Nicholls

The Chemical Ecology and Drug Discovery Potential of the Antarctic Red Alga Plocamium cartilagineum and the Antarctic Sponge Dendrilla membranosa , Andrew Jason Shilling

Synthesis, Discovery and Delivery of Therapeutic Natural Products and Analogs , Zachary P. Shultz

Development of α-AA peptides as Peptidomimetics for Antimicrobial Therapeutics and The Discovery of Nanostructures , Sylvia E. Singh

Self-Assembly of 2D and 3D Metallo-Supramolecules with Increasing Complexity , Bo Song

The Potential of Marine Microbes, Flora and Fauna in Drug Discovery , Santana Alexa Lavonia Thomas

Design, Synthesis, and Self-Assembly of Supramolecular Fractals Based on Terpyridine with Different Transition Metal Ions , Lei Wang

Theses/Dissertations from 2018 2018

Fatty Acid Amides and Their Biosynthetic Enzymes Found in Insect Model Systems , Ryan L. Anderson

Interrogation of Protein Function with Peptidomimetics , Olapeju Bolarinwa

Characterization of Nylon-12 in a Novel Additive Manufacturing Technology, and the Rheological and Spectroscopic Analysis of PEG-Starch Matrix Interactions , Garrett Michael Craft

Synthesis of Novel Agents for the treatment of Infectious and Neurodegenerative diseases , Benjamin Joe Eduful

Survey research in postsecondary chemistry education: Measurements of faculty members’ instructional practice and students’ affect , Rebecca E. Gibbons

Design, Synthesis, Application of Biodegradable Polymers , Mussie Gide

Conformational Fluctuations of Biomolecules Studied Using Molecular Dynamics and Enhanced Sampling , Geoffrey M. Gray

Analysis and New Applications of Metal Organic Frameworks (MOF): Thermal Conductivity of a Perovskite-type MOF and Incorporation of a Lewis Pair into a MOF. , Wilarachchige D C B Gunatilleke

Chemical Investigation of Bioactive Marine Extracts , Selam Hagos

Optimizing Peptide Fractionation to Maximize Content in Cancer Proteomics , Victoria Izumi

Germania-based Sol-gel Coatings and Core-shell Particles in Chromatographic Separations , Chengliang Jiang

Synthesis, Modification, Characterization and Processing of Molded and Electrospun Thermoplastic Polymer Composites and Nanocomposites , Tamalia Julien

Studies Aimed at the Synthesis of Anti-Infective Agents , Ankush Kanwar

From Florida to Antarctica: Dereplication Strategies and Chemical Investigations of Marine Organisms , Matthew A. Knestrick

Sorbent Enrichment Performance of Aromatic Compounds from Diluted Liquid Solution , Le Meng

Development of Bioactive Peptidomimetics , Fengyu She

Azamacrocyclic-based Frameworks: Syntheses and Characterizations , Chavis Andrew Stackhouse

Structure-based Design, Synthesis and Applications of a New Class of Peptidomimetics: 'Y -AA Peptides and Their Derivatives , Ma Su

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2024 Best Chemistry Doctor's Degree Schools

College Factual reviewed 112 schools in the United States to determine which ones were the best for doctor's degree seekers in the field of chemistry. Combined, these schools handed out 2,721 doctor's degrees in chemistry to qualified students.

Jump to one of the following sections: * Our Methodology

Best Doctor’s Degree Schools List

Choosing a Great Chemistry School for Your Doctor's Degree

A Great Overall School

The overall quality of a doctor's degree school is important to ensure a quality education, not just how well they do in a particular major. To make it into this list a school must rank well in our overall Best Colleges for a Doctor's Degree ranking. This ranking considered factors such as graduation rates, overall graduate earnings and other educational resources to identify great colleges and universities.

Early-Career Earnings

One measure we use to determine the quality of a school is to look at the average salary of doctorate graduates during the early years of their career. This is because one of the main reasons people pursue their doctor's degree is to enable themselves to find better-paying positions.

Other Factors We Consider

In addition to the above, you should consider some of the following factors:

Major Focus - How much a school focuses on chemistry students vs. other majors.
Major Demand - The number of chemistry students who choose to seek a doctor's degree at the school.
Educational Resources - The amount of money and other resources allocated to students while they are pursuing their degree. These resources include such things as number of students per instructor and education expenditures per student.
Student Debt - How much debt chemistry students go into to obtain their doctor's degree and how well they are able to pay back that debt.
Accreditation - Whether a school is regionally accredited and/or accredited by a recognized chemistry related body.

Our full ranking methodology documents in more detail how we consider these factors to identify the best colleges for chemistry students working on their doctor's degree.

More Ways to Rank Chemistry Schools

Since picking the right college can be one of the most important decisions of your life, we've developed the Best Chemistry Doctor's Degree Schools ranking, along with many other major-related rankings , to help you make that decision.

Best Schools for Doctorate Students to Study Chemistry in the United States

Learn about the top ranked colleges and universities for chemistry students seeking a a doctor's degree. Only those schools that rank in the top 15% of all the schools we analyze get awarded with a place on this list.

16 Top Schools for a Doctorate in Chemistry

It is hard to beat Northwestern University if you wish to pursue a doctor's degree in chemistry. Northwestern is a fairly large private not-for-profit university located in the city of Evanston.

Chemistry doctor's degree recipients from Northwestern University earn a boost of about $32,594 above the average income of chemistry majors.

Stanford University is a wonderful option for individuals pursuing a doctor's degree in chemistry. Stanford is a large private not-for-profit university located in the large suburb of Stanford. More information about a doctorate in chemistry from Stanford University

Every student pursuing a degree in a doctor's degree in chemistry needs to look into University of Chicago. Located in the large city of Chicago, UChicago is a private not-for-profit university with a large student population. More information about a doctorate in chemistry from University of Chicago

University of California - Berkeley is a wonderful decision for individuals pursuing a doctor's degree in chemistry. UC Berkeley is a very large public university located in the midsize city of Berkeley.

Those chemistry students who get their doctor's degree from University of California - Berkeley make $36,925 more than the typical chemistry graduate.

Located in the medium-sized suburb of Santa Barbara, UCSB is a public university with a very large student population.

Those chemistry students who get their doctor's degree from University of California - Santa Barbara receive $33,709 more than the standard chemistry student.

U-M is a very large public university located in the midsize city of Ann Arbor. More information about a doctorate in chemistry from University of Michigan - Ann Arbor

Located in the city of Champaign, UIUC is a public university with a very large student population.

Chemistry doctor's degree recipients from University of Illinois at Urbana-Champaign earn a boost of around $21,466 over the typical earnings of chemistry majors.

UMCP is a fairly large public university located in the suburb of College Park. More information about a doctorate in chemistry from University of Maryland - College Park

Johns Hopkins is a fairly large private not-for-profit university located in the large city of Baltimore. More information about a doctorate in chemistry from Johns Hopkins University

Located in the large suburb of Storrs, UCONN is a public university with a very large student population. More information about a doctorate in chemistry from University of Connecticut

Cornell is a very large private not-for-profit university located in the city of Ithaca. More information about a doctorate in chemistry from Cornell University

UCSD is a fairly large public university located in the city of La Jolla.

Chemistry doctor's degree recipients from University of California - San Diego get an earnings boost of around $3,546 above the average income of chemistry graduates.

Located in the city of Los Angeles, UCLA is a public university with a very large student population.

Doctorate graduates who receive their degree from the chemistry program earn around $57,938 in the first couple years of working.

Located in the small city of Ames, Iowa State is a public university with a very large student population. More information about a doctorate in chemistry from Iowa State University

Located in the large suburb of Amherst, UMass Amherst is a public university with a very large student population. More information about a doctorate in chemistry from University of Massachusetts Amherst

Ohio State is a very large public university located in the large city of Columbus.

Chemistry doctor's degree recipients from Ohio State University - Main Campus earn a boost of approximately $14,928 over the typical earnings of chemistry majors.

Additional Noteworthy Schools

These are some additional schools worth mentioning that are also great but just didn't quite make the cut to earn our top Best Chemistry Doctor's Degree Schools award.

Chemistry by Region

View the Best Chemistry Doctor's Degree Schools for a specific region near you.

Other Rankings

Best associate degrees in chemistry, best master's degrees in chemistry, best value in chemistry, best for non-traditional students in chemistry, best online in chemistry, most popular online in chemistry, best bachelor's degrees in chemistry, best overall in chemistry, highest paid grads in chemistry, best for veterans in chemistry, most popular in chemistry, most focused in chemistry.

View All Rankings >

Rankings in Majors Related to Chemistry

One of 8 majors within the Physical Sciences area of study, Chemistry has other similar majors worth exploring.

Chemistry Concentrations

Majors similar to chemistry, notes and references.

The bars on the spread charts above show the distribution of the schools on this list +/- one standard deviation from the mean.
The Integrated Postsecondary Education Data System ( IPEDS ) from the National Center for Education Statistics (NCES), a branch of the U.S. Department of Education (DOE) serves as the core of the rest of our data about colleges.
Some other college data, including much of the graduate earnings data, comes from the U.S. Department of Education’s ( College Scorecard ). More about our data sources and methodologies .

Popular Reports

Compare your school options.

Home > Sciences and Arts > Dept. of Chemistry > Dissertations and Master's Theses

Dept. of Chemistry Dissertations and Master's Theses

Explore our collection of dissertations and master's theses from the Department of Chemistry below.

Theses/Dissertations/Reports from 2024 2024

Small Fluorescent Glycoconjugates as Imaging Agents for GLUT Sugar Transporters , Adelina Oronova

Theses/Dissertations/Reports from 2023 2023

DETECTION AND MUTATIONAL ANALYSIS OF A HUMAN PROTEIN ASSOCIATED WITH CANCER AND CARDIOVASCULAR DISEASES , Priyanka Dipak Kadav

EXPLORING TURN-ON PROBES FOR GLUTs TARGETING AND ADVANCING SAFETY EDUCATION IN THE CHEMICAL SCIENCES: A TWO-PART DISSERTATION , Monica Mame Soma Nyansa

MULTILEVEL COMPUTATIONAL INVESTIGATION INTO THE CATALYTIC MECHANISMS OF MATRIX METALLOPROTEINASE-1 AND FAT MASS AND OBESITY-ASSOCIATED ENZYME , Ann Varghese

MULTISCALE MOLECULAR MODELING STUDIES OF THE DYNAMICS AND CATALYTIC MECHANISMS OF IRON(II)- AND ZINC(II)-DEPENDENT METALLOENZYMES , Sodiq O. Waheed

ORIGINS OF OPTICAL PROPERTIES IN NATURAL ORGANIC MATTER AND FLUORESCENT ANIMALS , Nastaran Khademimoshgenani

Small Molecules Targeting Fructose Transport , Nazar Gora

UHPLC/FT-MS NON-TARGETED SCREENING APPROACH FOR BIOMASS BURNING ORGANIC AEROSOL AND LIQUID SMOKE AS BIOMASS BURNING ORGANIC AEROSOL SURROGATE , D.M.R. Thusitha Dinusha Kumarihami Divisekara

Theses/Dissertations/Reports from 2022 2022

INTERFACIAL OXIDATION REACTIONS AND FILM NUCLEATION ON IRON SURFACES IN COMPLEX ENVIRONMENTS USING SPECTROSCOPY AT THE LIQUID/SOLID AND GAS/SOLID INTERFACE , Adambarage Chathura de Alwis

ISOLATION AND CHROMATOGRAPHIC SEPARATION OF CYTOTOXIC PLANT COMPOUNDS , Michael C. Hromada

ISOLATION, PURIFICATION, AND CHARACTERIZATION OF A NEW MANNOSE-BINDING PLANT LECTIN THAT RECOGNIZES FUNGAL ANTIGENS , Jessica C. Krycia

MULTILEVEL COMPUTATIONAL INVESTIGATION INTO THE DYNAMICS AND REACTION MECHANISMS OF NON-HEME IRON AND 2-OXOGLUTARATE DEPENDENT ENZYMES , Shobhit Sanjeev Chaturvedi

NON-CHROMATOGRAPHIC OLIGONUCLEOTIDE PURIFICATION AND AUTOMATED POLYETHYLENEGLYCOL SYNTHESIS , Dhananjani N. A. M. Eriyagama

STRUCTURAL AND FUNCTIONAL ANALYSIS OF A NEW CYTOLYSIN , Jared L. Edwards

SYNTHESIS AND DEVELOPMENT OF FLUORESCENT CARBON DOTS FOR SENSING AND BIOIMAGING APPLICATIONS , Parya Siahcheshm

Theses/Dissertations/Reports from 2021 2021

BASE-LABILE PROTECTING GROUPS FOR STEPWISE PEG SYNTHESIS , Logan D. Mikesell

COBALT, MOLYBDENUM, AND NICKEL COMPLEXES, NATURAL ZEOLITES, EPOXIDATION, AND FREE RADICAL REACTIONS , Nicholas K. Newberry

DESIGN AND DEVELOPMENT OF NEAR-INFRARED FLUORESCENT PROBES FOR SENSING pH, HYPOXIA AND PEROXYNITRITE , Shulin Wan

DETERMINATION OF MOLECULAR MARKERS OF VACCINIUM BERRY STANDARD REFERENCE MATERIALS THROUGH DIFFERENTIAL ANALYSIS WITH ULTRAHIGH RESOLUTION LC/MS , Abby Mikolitis

EXPLORING GLUT5 TARGETING FOR CANCER DIAGNOSIS AND THERAPY , Avik Ghosh

High-resolution molecular characterization of complex environmental mixtures: Aquatic dissolved organic matter and wildfire-influenced aerosol , Amna Ijaz

INVESTIGATING REDOX CHEMISTRY OF GRAPHITE, IRON OXIDE & IRON SURFACES , Mikhail Trought

Theses/Dissertations/Reports from 2020 2020

EXPLORING SUBSTRATE SPECIFICITY OF FRUCTOSE TRANSPORTERS EN ROUTE TO GLUT SPECIFIC PROBES FOR BIOCHEMICAL AND BIOMEDICAL APPLICATIONS , Vagarshak Vigenovich Begoyan

Macromolecular strategies for discovering disease-related proteins and new therapeutic agents , Christina Welch

RATIOMETRIC NEAR-INFRARED FLUORESCENT PROBES FOR THE SENSITIVE DETECTION OF INTRACELLULAR pH AND BIO-THIOLS IN LIVE CELLS , Shuai Xia

Theses/Dissertations/Reports from 2019 2019

Characterizing the physicochemical properties of TDP-43 protein and Acetylated Amyloid β peptides to discern its role in neurodegenerative diseases , Rashmi Adhikari

EXTREME MOLECULAR DIVERSITY IN BIOMASS BURNING ATMOSPHERIC ORGANIC AEROSOL OBSERVED THROUGH ULTRAHIGH RESOLUTION MASS SPECTROMETRY , Matthew Brege

METHOD CONSIDERATIONS FOR COMPOUND IDENTIFICATION IN COMPLEX MIXTURES USING ELECTROSPRAY IONIZATION ULTRAHIGH RESOLUTION MASS SPECTROMETRY , Tyler Leverton

MOLECULAR CHARACTERIZATION OF FREE TROPOSPHERIC ORGANIC AEROSOL AND THE DEVELOPMENT OF COMPUTATIONAL TOOLS FOR MOLECULAR FORMULA ASSIGNMENT , Simeon Schum

NEAR-INFRARED FLUORESCENT PROBES FOR SENSITIVE DETERMINATION OF LYSOSOMAL & MITOCHONDRIAL pH IN LIVE CELLS , Wafa Mazi

SMALL MOLECULE-BASED FLUORESCENT MOLECULAR PROBES FOR FACILITATING BIOMEDICAL RESEARCH: RATIONAL DESIGN AND BIOIMAGING APPLICATIONS , Xin Yan

Synthesis of Oligodeoxynucleotides Containing Sensitive Electrophiles , Shahien Shahsavari

TOWARDS THE DISCOVERY OF OLIGONUCLEOTIDE CROSS-LINKING AGENTS , Bhaskar Halami

Theses/Dissertations/Reports from 2018 2018

DEVELOPING NOVEL MOLECULAR IMAGING AGENTS FOR SHEDDING LIGHT ON OXIDATIVE STRESS , Shanshan Hou

DEVELOPMENT OF NEAR-INFRARED FLUORESCENT PROBES FOR MONITORING LYSOSOMAL pH CHANGES , Jianheng Bi

DIRECT MEASUREMENT OF RUPTURE FORCE OF SINGLE TRIAZOLE MOLECULE BY ATOMIC FORCE MICROSCOPE AND SOLID PHASE SYNTHESIS OF MONODISPERSE POLYETHYLENE GLYCOLS , Ashok Khanal

NOVEL FLUORESCENT PROBES FOR VISUALIZATION OF pH CHANGES AND Zn (Ⅱ) IONS IN LIVE CELLS , Mingxi Fang

PHYSICOCHEMICAL, SPECTROSCOPIC PROPERTIES, AND DIFFUSION MECHANISMS OF SMALL HYDROCARBON MOLECULES IN MOF-74-MG/ZN: A QUANTUM CHEMICAL INVESTIGATION , Gemechis Degaga

Theses/Dissertations/Reports from 2017 2017

DEVELOPMENT OF A SYSTEM TO STUDY THE EFFECTS OF HISTONE MUTATIONS AND POST-TRANSLATIONAL MODIFICATIONS ON NUCLEOSOME STRUCTURE VIA ATOMIC FORCE MICROSCOPY , Chelsea Nikula

Fluorescent Probe Development for Fructose Specific Transporters in Cancer , Joseph Fedie

GLYCOBIOLOGICAL STUDIES THAT CAN HELP THYROID CANCER DETECTION AND THERAPY , Ni Fan

Heterologous Expression and Purification of Full-Length Human Polybromo-1 Protein , Sarah Hopson

NOVEL BIOCOMPOSITES AND NANOFIBERS BASED ON MODIFIED BIOMASS MATERIALS TO FACILITATE GREENER APPLICATIONS , Soha Albukhari

Theses/Dissertations/Reports from 2016 2016

Effect of disulfide bond scrambling on protein stability, aggregation, and cytotoxicity , Colina Dutta

FORMATION AND DEACTIVATION OF TRIMETHYLALUMINUM IN AIR CONDITIONER SIMULATOR AND MCM-41 SUPPORTED SILVER NANOPARTICLES FOR OXIDATION OF OLEFINS , Zhichao Chen

NEAR-INFRARED WATER-SOLUBLE FLUORESCENT PROBES FOR THE DETECTION OF LYSOSOMAL pH AND Zn (II) IONS , Cong Li

Novel Carbohydrate-Dependent Biological Properties of Human Health Related Lectins and Glycoconjugates , Melanie Talaga

SENSING AND MAPPING OF SURFACE HYDROPHOBICITY OF PROTEINS BY FLUORESCENT PROBES , Nethaniah Dorh

THE EFFECT OF POSTTRANSLATIONAL MODIFICATIONS ON PROTEIN AGGREGATION, MORPHOLOGY, AND TOXICITY , Mu Yang

Reports/Theses/Dissertations from 2015 2015

BIOLOGICAL MATERIALS: PART A. TEMPERATURE-RESPONSIVE POLYMERS AND DRUG DELIVERY AND PART B. POLYMER MODIFICATION OF FISH SCALE AND THEIR NANO-MECHANICAL PROPERTIES , Xu Xiang

DESIGN AND DEVELOPMENT OF BODIPY-BASED FLUORESCENT PROBES FOR SENSING AND IMAGING OF CYANIDE, Zn (II) IONS, LYSOSOMAL pH AND CANCER CELLS , Jingtuo Zhang

Extracellular expression of alkaline phytase in Pichia pastoris and Development of Nuclear Magnetic Resonance spectroscopy methods for structural investigation of inositol polyphosphates , Sasha Teymorian

ON THE PROTECTIVE PROPERTIES OF GLYCINE BASED OSMOLYTES IN A THIOL REDUCING ENVIRONMENT , John Michael Hausman

SYNTHETIC OLIGODEOXYNUCLEOTIDE PURIFICATION VIA CATCHING BY POLYMERIZATION , Suntara Fueangfung

Reports/Theses/Dissertations from 2014 2014

DESIGN, SYNTHESIS AND APPLICATIONS OF FLUORESCENT AND ELECTROCHEMICAL PROBES , Giri K. Vegesna

EVOLUTION OF SELECTED ISOPRENE OXIDATION PRODUCTS IN DARK AQUEOUS AMMONIUM SULFATE , D.M. Ashraf Ul Habib

MOLECULAR CHARACTERIZATION OF ATMOSPHERIC ORGANIC MATTER IN BIOGENIC SECONDARY ORGANIC AEROSOL, AMBIENT AEROSOL AND CLOUDS , Yunzhu Zhao

NON-CHROMATOGRAPHIC PURIFICATION OF SYNTHETIC BIO-OLIGOMERS , Durga Prasad Pokharel

PURIFICATION AND CARBOHYDRATE BINDING PROPERTIES OF TWO NEW PLANT PROTEINS , Robert K. Brown

Reports/Theses/Dissertations from 2013 2013

ACETYL RADICAL IN TOBACCO SMOKE: DETECTION, QUANTIFICATION AND SIMULATION , Na Hu

CHARACTERIZATION OF TWO NOVEL MONOCOT MANNOSE BINDING LECTINS PURIFIED BY ‘CAPTURE AND RELEASE’ METHOD , Ashli L. Fueri

Development and characterization of fluorescent pH sensors based on porous silica and hydrogel support matrices , Qili Hu

Enhancement of heterologous expression of alkaline phytase in Pichia pastors , Mimi Yang

Modern Computational Chemistry Methods for Prediction of Ground- and Excited-State Properties in Open-Shell Systems , Nina Tyminska

Oligodeoxynucleotide synthesis using protecting groups and a linker cleavable under non-nucleophilic conditions , Xi Lin

STUDIES OF FUNCTIONALIZED NANOPARTICLES FOR SMART SELF-ASSEMBLY AND AS CONTROLLED DRUG DELIVERY , Xiaochu Ding

THERMORESPONSIVE PROPERTIES OF GOLD HYBRID NANOPARTICLES OF POLY(DI(ETHYLENE GLYCOL) METHYL ETHER METHACRYLATE) (PDEGMA) AND ITS BLOCK COPOLYMERS WITH DIFFERENT ANCHORING REGIMES , Martha Juliana Barajas Meneses

TUNING FLUORESCENT PROBES FOR BIOMEDICAL APPLICATIONS , Nazmiye Bihter Yapici

Reports/Theses/Dissertations from 2012 2012

Biological materials : Part A. tuning LCST of raft copolymers and gold/copolymer hybrid nanoparticles and Part B. biobased nanomaterials , Ning Chen

Characterization of water-soluble organic compounds in ambient aerosol using ultrahigh-resolution elctrospray ionization fourier transform ion cyclotron resonance mass spectrometry. , Parichehr Saranjampour

COORDINATION CHEMISTRY OF BIS(BENZYL)PHOSPHINATE , John S. Maass

DESIGN AND SYNTHESIS OF NOVEL SYNTHETIC ANTIOXIDANTS FOR THE TREATMENT OF OXIDATIVE STRESS RELATED DISEASES , Srinivas Rao Mandalapu

Indole based antioxidants for the treatment of ischemia reperfusion injury , Andrew Chapp

Performance evaluation and characterization of symmetric capacitors with carbon black, and asymmetric capacitors using a carbon foam supported nickel electrode , JinJin Wang

Soft Lewis acid catalyzed cycloisomerization of oxo-alkynes and enynes , Zezhou Wang

Reports/Theses/Dissertations from 2011 2011

Multimetallic complexes based on phosphine- and phosphine oxide- appended p -hydroquinones , Louis R. Pignotti

Performance evaluation of a novel asymmetric capacitor using a light-weight, carbon foam supported nickel electrode , Padmanaban Sasthan Kuttipillai

Structural characterization of water-soluble atmospheric organic matter by ultrahigh-resolution mass spectrometry , Jeffrey P. LeClair

Syntheses and structures of molybdenum and tungsten complexes capable of epoxidaton and copper coordination polymers and dendrimers , Linsheng Feng

Synthesis of chiral ferrosalen ligands and their applications in asymmetric catalysis , Xiang Zhang

Reports/Theses/Dissertations from 2010 2010

Syntheses and characterization of monomeric Mo(VI) complexes with bidentate phosphine oxide ligands and dimeric and tetrameric Mo(V) clusters with benzoic acid and phosphinic acid derivatives, containing MoO 2 , Mo 2 O 2 ( μ -O) 2 and Mo 4 O 4 ( μ 3 -O) 4 , Soumyashree Sreehari

Reports/Theses/Dissertations from 2009 2009

Molecular interaction between perthiolated [beta]-cyclodextrin (CD) and the guests molecules adamantaneacetic acid (AD) and ferroceneacetic acid (FC); and the effect of the interaction on the electron transition of CD anchored particles , Ming Ning

Reports/Theses/Dissertations from 2005 2005

Sulfoxides as an intramolecular sulfenylating agent for indoles and diverse applications of the sulfide-sulfoxide redox cycle in organic chemistry , Parag V. Jog

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The Graduate Program is designed for students who wish to earn a Ph.D. in Chemistry while undertaking cutting edge research. The program provides students with the necessary theoretical background and hands-on training to become independent and highly successful scientists. Graduate students achieve mastery of advanced chemistry topics through ...
PhD in Chemistry
The PhD in chemistry is primarily a research degree. It is awarded to students who have displayed competence in planning and conducting original research in the field of chemistry, demonstrated a broad familiarity with the science of chemistry, understanding in the application of the scientific method, and gained a thorough knowledge of their field of specialization.
Your complete guide to a PhD in Chemistry
Chemistry is the gateway to understanding the microscopic processes that shape our macroscopic world. During your studies you will: Grasp the fundamental concepts governing chemical reactions. Use advanced instruments for detailed analyses. Decipher the intricacies of molecular structures and bonds.
Frontiers in Chemistry
Advanced Self-assembled Materials with Programmable Functions-Volume II. Advances our understanding of how atoms, ions, and molecules come together and come apart. It explores the role of chemistry in our everyday lives - from electronic devices to health and wellbeing.
About the Chemistry Ph.D. Program
The Chemistry PhD program is designed towards developing within each student the ability to do creative scientific research. Accordingly, the single most important facet of the curriculum for an individual is their own research project. In keeping with the goal of fostering an atmosphere of scholarly, independent study, formal course requirements are minimal and vary among disciplines; advisor ...
Doing a PhD in Chemistry
Advice. Doing a PhD in Chemistry. A PhD in Chemistry aims to prepare highly qualified researchers who are able to bring about new advances in the chemistry fields, including Chemical Engineering, Materials Science and Nanoscience etc. In other words, the core objective of a Chemistry PhD is to train researchers to join or lead research groups ...
300+ Chemistry Research Topics
Organic Chemistry Research Topics. Organic Chemistry Research Topics are as follows: Development of novel synthetic routes for the production of biologically active natural products. Investigation of reaction mechanisms and kinetics for organic transformations. Design and synthesis of new catalysts for asymmetric organic reactions.
The Best Universities for PhDs in Chemistry in the USA (2023)
11. Yale University. 9. 12. Columbia University. 10. 10. This information is based on the research score from the latest rankings tables, researched and published by Times Higher Education. Visit their website for more information.
Survey of Ph.D. Programs in Chemistry
The number of students in Ph.D. programs ranges from 0 to 394 (see Figure 1) with a total of 13,280 students. Eighteen departments have more than 200 students, accounting for more than one-third (4,460) of the total graduate students in chemistry. The 30 largest programs account for almost 50% of graduate students.
10 Top PhD Programs in Chemistry in 2024
Chemical Materials Scientist ( $130,008) Professor of Chemistry ( $94,914) Development Chemist ( $59,802) Director of Research ( $107,150) The tuition for a PhD in chemistry can range from $10,000 to $70,000 based on various factors, with public schools being much more affordable than private schools.
Best Graduate Chemistry Programs
Ranked in 2023, part of Best Science Schools. With a graduate degree in chemistry, scientists may find jobs in laboratories, government agencies, research institutions, pharmaceutical companies ...
Courses
CHE 619: Readings of Topics in Chemistry CHE 693: Physical/Inorganic/Materials Chemistry Seminar CHE 694: Biological Chemistry Seminar CHE 696: Organic Chemistry Seminar CHE 698: Colloquium For course descriptions, please see the Graduate Bulletin .
PhD in Chemistry Programs & Schools 2024+
PhD in Chemistry Programs Overview. Students pursuing a PhD in Chemistry spend a great deal of time involved in independent research, study and conducting experiments. Research topics may be in theoretical, physical and organic chemistry, though students often have the freedom to choose their specialization. A PhD is an opportunity for students ...
Chemistry PhD Projects, Programmes & Scholarships
PhD programmes in Chemistry offer students the unique chance to delve into cutting-edge research, pushing the boundaries of what is known and applying their findings in ways that can significantly benefit society. Whether it's pioneering new drug formulations, creating sustainable materials, or developing innovative energy solutions, a PhD in ...
The 10 Best Doctor of Chemistry (D.Chem.) Degree Programs
Doctor of Chemistry (D.Chem.) Degree Programs provide advanced-level education in Chemistry for students wishing to pursue careers as research scientists, professors, and/or industry professionals. Students enrolled in D.Chem. programs explore research topics such as green chemistry, advanced biochemistry, and physical chemistry through advanced lab techniques and case studies.
Chemistry Theses and Dissertations
Theses/Dissertations from 2021. Design, Synthesis and Testing of Bioactive Peptidomimetics, Sami Abdulkadir. Synthesis of Small Molecules for the Treatment of Infectious Diseases, Elena Bray. Social Constructivism in Chemistry Peer Leaders and Organic Chemistry Students, Aaron M. Clark.
2024 Best Chemistry Doctor's Degree Schools
University of California - Berkeley. Berkeley, CA. 53 Annual Graduates. $107,442 Median Starting Salary. University of California - Berkeley is a wonderful decision for individuals pursuing a doctor's degree in chemistry. UC Berkeley is a very large public university located in the midsize city of Berkeley.
Current research topics for PhD in chemistry?
All Answers (4) 1. Everyone is interested in topics and I think it is better to put them on their own policy. 2 In general, in different journals, browse the topic of interest and check the latest ...
Ph.D
Ph.D - Chemistry. One of the oldest & ever-evolving department having a vision to excel in teaching & research. Active research in the frontier areas of both fundamental and applied chemistry has been appreciated nationally & globally over past decades. The department continues to grow and attain new paradigms in chemistry education in the ...
Dept. of Chemistry Dissertations and Master's Theses
INVESTIGATING REDOX CHEMISTRY OF GRAPHITE, IRON OXIDE & IRON SURFACES, Mikhail Trought. Theses/Dissertations/Reports from 2020 PDF. EXPLORING SUBSTRATE SPECIFICITY OF FRUCTOSE TRANSPORTERS EN ROUTE TO GLUT SPECIFIC PROBES FOR BIOCHEMICAL AND BIOMEDICAL APPLICATIONS, Vagarshak Vigenovich Begoyan. PDF.
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