frontiera lab
ultrafast and nanoscale Raman spectroscopy
Research in our group focuses on developing and applying Raman spectroscopic techniques to determine how nanoscale local environments impact chemical reaction dynamics. Our research is highly interdisciplinary, investigating current problems at the interface of chemistry, biology, and materials science. We firmly believe that science needs a diversity of views and experiences, and we are committed to advocacy while providing an inclusive, collaborative, and respectful environment.
plasmon-driven chemistry
investigating the mechanisms of plasmonic photocatalysis
plasma-liquid interactions
exploring chemical properties of liquid-plasma surface interfaces
super-resolution Raman microscopy
developing label-free imaging that breaks the diffraction limit
vibrational control of solar photochemistry
following and modifying the structural evolution of molecules during charge transport
chiral-induced spin selectivity
quantifying nuclear contributions to spin-selective transport
dark photocatalysis
storing sunlight to drive chemical reactions at night