Meet Our Students

Students with Prof. Prasad.
Introducing the College Ambassadors!

Meet Will and Meghan, the department's undergraduate Ambassadors for the College of Arts and Sciences. College Ambassadors are student volunteers who have been nominated by faculty and staff after demonstrating a commitment to academic excellence and community engagement. 

Will Roberts.
Will Roberts

“In addition to the many opportunities for research that the Chemistry Department provides, it offers a welcoming and encouraging home on campus for any student interested in exploring the field.”

Meghan Sullivan.
Meghan Sullivan

"What I like most about the Department of Chemistry at UB are the resources to get involved in the chemistry community, such as UBChemClub, and the many opportunities to be involved in high-impact research as an undergraduate."

UB’s Department of Chemistry is home to students, staff, and faculty from around the world. We are proud of the extraordinary geographical and cultural diversity within the UB Chemistry Community! The map below highlights home towns of our graduate students, undergraduate majors, postdocs, staff, and faculty. 

Click on the map for a detailed view!

World map with pins showing where UB chemists are from.

Graduate Research Highlights

  • December 2020: Story Temen
    6/3/22

    I study non-adiabatic quantum dynamics and develop code for Libra, and open source quantum dynamics software package.

  • November 2020: Jonathan Kennedy-Ellis
    6/3/22

    My research involves copper-catalysed difunctionalisation of alkenes, primarily using alkyl trifluoroborates as a radical source. I am currently working on enantioselective carboaminations and carboetherifications.

  • October 2020: Steven Travis
    6/3/22

    My research focuses on developing methods to analyze persistent organic pollutants in various environmental matrices. The optimized methods are then applied to measure chemical exposures in different populations such as humans and wildlife.

  • September 2020: Vince Pastore
    12/14/22

    My research is focused on novel synthetic approaches to organic/inorganic hybrid materials using combined principles of polymer chemistry and coordination-driven self-assembly. The goal of this work is to gain a better understanding of interactions at the polymer/inorganic interface, and to obtain highly porous, mechanically robust functional materials that can ultimately be used for industrial applications such as CO2 capture.