Stephanie Kwon
Assistant Professor, Chemical and Biological Engineering
Contact
AH253
1613 Illinois Street
Golden, CO 80401
303-273-3614
kwon@mines.edu
The main goal of my research group is to understand the identity and kinetic relevance of the requisite elementary steps involved in heterogeneous catalysis in order to ultimately design catalytic systems with improved reactivity and selectivity toward desired products. Such goal is achieved by rigorously combining atomic-level synthetic methods, characterization tools, and theoretical assessments, which allow us to understand and control catalytic reactions at a molecular-level. The results of our projects will provide mechanistic insights into current catalytic systems and help to develop new catalysts with minimal energy requirements and environmental impacts.
Education & Experience
- BS, Seoul National University
- PhD, Northwestern University
- Post-Doctoral Study, UC Berkeley
Selected Publications
- Kwon, S., Lin, T. C., and Iglesia, E. (2020) Elementary Steps and Site Requirements in Formic Acid Dehydration Reactions on Anatase and Rutile TiO2 Surfaces. J. Catal., 383, 60–76.
- Kwon, S., Deshlahra, P., and Iglesia, E., (2019) Reactivity and Selectivity Descriptors of Dioxygen Activation Routes on Metal Oxides. J. Catal., 377, 692–710.
- Kwon, S., Deshlahra, P., and Iglesia, E., (2018) Dioxygen activation routes in Mars-van Krevelen redox cycles catalyzed by metal oxides, J. Cat., 364, 228–247.
- Kwon, S., Liao, P., Stair, P. C, and Snurr, R. Q., (2016) Alkaline-earth metal-oxide overlayers on TiO2: application toward CO2 photoreduction, Catal Sci Technol., 6, 7885–7895.
- Kwon, S., Schweitzer, N. M., Park, S.Y., Stair, P. C, and Snurr, R. Q. (2015) A kinetic study of vapor- phase cyclohexene epoxidation by H2O2 over mesoporous TS-1, J. Cat., 323, 117-115.
Research Group
- Yingxue Bian
- Michelle Nolen
- Manasi Vyas