The Department of Chemistry offers exceptional opportunities year-round for students, at both undergraduate and graduate levels, to participate in faculty research.

Undergraduate students that are interested and qualified can participate in faculty research for course credit (CHM 2995/4995/4996) and/or full-time during the summer. Students should feel free to discuss research opportunities with members of the chemistry faculty. If you are interested in research (in the Department of Chemistry) and do not know where to start, consider filling out a research questionnaire for advice on potential research mentors. Specific arrangements with an individual faculty member must be made before enrollment CHM 2995/4995/4996.

Graduate students in the Ph.D. and Masters programs have the opportunity to conduct research in any branch of the chemical sciences. Research should be discussed with a faculty research advisor of the students’ choice from the list below. Course credit may be earned in CHM 6995/9999.

Chemistry Research Opportunities

Analytical

John Seeley

Development of novel analytical methods
Two-dimensional gas chromatography for analysis of trace species in air
Analysis of biofuels

Zhe Wang

Green electrochemical synthesis and energy conversion
Advanced interface chemistry for sensors and biosensors
Multifunctional composite materials

Xiangqun Zeng

Novel sensor technique and electrode array development
Novel chemical and biointerface development for life science applications
Characterization and applications of carbohydrates and conductive polymers
Analytical applications of ionic liquids water quality monitoring and modeling aquatic microbial ecology

Biochemistry

Adam Avery

Molecular mechanisms of neuronal morphogenesis and disease
Protein biochemistry and Drosophila genetics
Advanced fluorescence techniques and drug development

Colin Wu

DNA replication, recombination, and repair
Mechanisms of DNA unwinding and translocation by helicases
Thermodynamic, kinetic, and structural understanding of protein-DNA interactions

Environmental

Thomas Bianchette

Reconstructing natural hazards through sedimentology, palynology, and geochemistry
Quaternary paleoenvironments

David Szlag

Water quality monitoring and modeling
Aquatic microbial ecology
Harmful algal blooms and other emerging contaminants

Ziming Yang

Biogeochemical transformation of soil organic matter
Mineral-organic interactions
Kinetics, mechanisms, and thermodynamics of organic reactions in geological and environmental systems
Microbial wastewater treatment

Inorganic

Ferman Chavez

Synthetic models for metalloenzymes
Nitric oxide releasing materials
Development of synthetic nucleases
Ligand design for asymmetric catalysis

Evan Trivedi

Tetrapyrrole and lanthanide coordination chemistry; synthetic methods
Luminescence spectroscopy; solid state and near-infrared
Therapeutic development in vitro; tissue culture and fluorescence microscopy
Drug development in vivo; molecular imaging in small animal models

Organic

Kodiah Beyeh

Supramolecular chemistry
Weak interactions
Hybrid and biohybrid materials

Roman Dembinski

Novel synthetic methods
Nucleoside (DNA/RNA) analogs
Bioorganic and organometallic chemistry
Heterocyclic and fluorine chemistry

Zacharias Kinney

Synthetic organic and inorganic chemistry; developing synthetic approaches for photoactive materials
Physical organic chemistry; elucidating structure-property relationships for hybrid materials
Supramolecular chemistry; synthesizing novel hosts for anion recognition and sensing

Physical

Laura Kiefer

Reaction mechanism determination through infrared spectroelectrochemistry with a focus on greenhouse gases and inorganic catalysts
Determining solvent effects on catalysis reactions
Use of green solvents, such as ionic liquids, to optimize electrocatalytic reactions

Alexander Rusakov

Relativistic quantum chemistry
- effects of spin-orbit interaction on the quantum many-electron problem
- the development of relativistic density functional theory and force fields with machine learning approaches
Theoretical chemistry of heavy elements:
- actinide chemistry
- chemistry of superheavy elements
Multi-scale modeling of significant medical isotopes:
- the behavior of Astatine-211, Radium-223, and Actinium-225 in complex systems and solution
- predictive models for rational design of radiopharmaceuticals for targeted alpha-particle therapy

Emeritus

Maria Bryant

Computer modeling of intermolecular forces

Linda Schweitzer

Environmental analytical chemistry
Drinking water quality and treatment processes

Michael Sevilla

Mechanisms of radiation damage to DNA
Electron spin resonance analysis for free radicals
Quantum chemistry calculations of free radical properties and structure