Research in our group focuses on using new spectroscopic techniques to probe chemistry at the ultimate limits of space and time. We investigate fundamental and applied issues in membrane protein biophysics, alternative energy sources, and nanotechnology, determining how local environments affect chemistry. Currently, we are working on developing a label-free, super-resolution imaging technique to monitor cells on the nanometer length scale, determining the role of vibrations in driving electron transfer reactions, and using plasmonic nanomaterials to monitor and catalyze chemical reactions. Our research is highly interdisciplinary, investigating current problems at the interface of chemistry, biology, and materials science.
Recent News and Publications
Vibronic Coupling and Exciton Chirality: Electronic and Structural Rearrangement between Helical to Zero Momentum Molecular Exciton States
Rich, C. C., Frontiera, R. R. The Journal of Physical Chemistry C, 2021
Decoding Chemical and Physical Processes Driving Plasmonic Photocatalysis Using Surface-Enhanced Raman Spectroscopies
Warkentin, C. L.*, Yu, Z.*, Sarkar, A., Frontiera, R. R. Accounts of Chemical Research, 2021
Plasmon-Mediated Intramolecular Methyl Migration with Nanoscale Spatial Control
Brooks, J. L., Warkentin, C. L., Chulhai, D. V., Goodpaster, J. D., Frontiera, R. R. ACS Nano, 2020