My research interests are broadly defined by electrochemistry used for deep decarbonization. Electrochemistry is the science of using electricity to drive chemical reactions. Deep decarbonization is the process of eliminating human-caused emissions of CO2, which are currently associated with most of the energy and materials that we consume. Electrochemistry provides a pathway for the use of emissions-free sources of electricity to deliver reliable electricity, power manufacturing processes, and produce energy dense fuels.

Specifically, my group researches electrochemical interfaces used for long-duration energy storage, devices for zero-emissions iron making, and advanced cell designs for green hydrogen production.

As the Director of the Electrochemistry Masters Internship Program I lead industry partnerships and sponsored projects for the Master’s students pursuing careers as electrochemists and electrochemical engineers. I also lead a collaborative project sponsored by the Industrial Efficiency and Decarbonization Process developing electrolyzers for the production of iron and commodity chemicals. With the Center for Interfacial Ionics, I study the fundamental kinetics and transport of ion-transfer reactions required for energy storage.