Reaction-Mediated Transformation of Working CatalystsClick to copy article linkArticle link copied!
- Gang Wan*Gang Wan*Email for G.W.: [email protected]SLAC National Accelerator Laboratory, Menlo Park, California 94025, United StatesMore by Gang Wan
- Guanghui Zhang*Guanghui Zhang*Email for G.Z.: [email protected]State Key Laboratory of Fine Chemicals, PSU-DUT Joint Center for Energy Research, School of Chemical Engineering, Dalian University of Technology, Dalian 116024, People’s Republic of ChinaDavidson School of Chemical Engineering, Purdue University, West Lafayette, Indiana 47907, United StatesMore by Guanghui Zhang
- Johnny Zhu ChenJohnny Zhu ChenDavidson School of Chemical Engineering, Purdue University, West Lafayette, Indiana 47907, United StatesMore by Johnny Zhu Chen
- Michael F. Toney*Michael F. Toney*Email for M.F.T.: [email protected]Department of Chemical and Biological Engineering, University of Colorado Boulder, Boulder, Colorado 80309, United StatesMore by Michael F. Toney
- Jeffrey T. Miller*Jeffrey T. Miller*Email for J.T.M.: [email protected]Davidson School of Chemical Engineering, Purdue University, West Lafayette, Indiana 47907, United StatesMore by Jeffrey T. Miller
- Christopher J. Tassone*Christopher J. Tassone*Email for C.J.T.: [email protected]SLAC National Accelerator Laboratory, Menlo Park, California 94025, United StatesMore by Christopher J. Tassone
Abstract
Catalytic transformations are critical in a variety of thermal and electrochemical processes, including fuel and chemical generation, energy conversion, and decarbonization. Historically, various static assessment factors have been used to examine a wide range of catalytic materials. Surface, interfacial, and nanoscale phenomena have been seen in various catalytic disciplines, which are crucial to major applications. These phenomena sparked extensive discussions on how catalysts operate for reactions and adapt to working environments. With this recognition, the goal of this review is to go beyond the traditional static analysis of working catalysts and provide a perspective on the dynamic insights into structural and redox transformations at catalytic surfaces and electrified interfaces. The correlation between the transformation of working catalysts and their catalytic performance is examined, shedding light on understanding and controlling catalyst redox and structure evolution under operating conditions with properties tailored to thermochemical and electrocatalytic processes.
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