Chemistry and Biochemistry

Chemistry and Biochemistry

Undergraduate Research

As early as freshman year, chemistry and biochemistry majors are encouraged to become involved in research projects, closely supervised by faculty in the department. Stipends are available to fund students’ work on a broad range of research projects during the summer and academic year. If you would like to conduct research with one of our faculty members, click here for important information and deadlines.

The results of these projects are often presented by students at the American Chemical Society national meetings and other major conferences. In addition, students are often co-authors (with faculty) of research publications in major international science journals.

Additional research opportunities at large research institutions and pharmaceutical companies are available. Click here for information and deadlines.

Research opportunities in the Department of Chemistry and Biochemistry include:

Analytical & Inorganic Chemistry: Dr. Szczepankiewicz’s group is interested in developing rugged photoactivated catalysts capable of reducing small stable molecules such as CO2.

Szczepankiewicz 


Analytical & Environmental Chemistry: Dr. Schaber’s group is interested in developing analytical tools to identify pollutants in water and soil.

Schaber 


Inorganic Chemistry: Dr. Kozik’s group studies a group of transition metal complexes called polyoxometallates and their potential applications in medicine and in environmental chemistry.

Kozik 


Biochemistry: Dr. Evans’ group studies metal-binding transcription factors and DNA-protein cross-linking.

Evans 


Bioorganic Chemistry: Dr. O’Sullivan’s group designs and synthesizes new organic compounds to inhibit an enzyme found only in trypanosomatids, which are parasites that cause serious diseases.

OSullivan 


Organic Chemistry: Dr. Gregg’s group is interested in the reactions of carbenes useful for preparing novel types of chemical products. This includes screening the reactivity of starting materials, investigating chiral metal catalysts used to prepare optically active products, and modelling reaction mechanisms using computer-based quantum mechanical tools.

Gregg 


Materials Chemistry: Dr. Steinbacher's group is interested in the development of new biomedical materials for combined imaging and drug delivery, especially those based on porous silica nanoparticles.

Steinbacher 


Physical Chemistry: Dr. Sheridan’s group uses millimeter-wave and laser spectroscopic techniques to study fundamental structure and bonding properties of small molecules.

Sheridan