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Enhancing Oxygen Reduction Activity of Pt‐based Electrocatalysts: From Theoretical Mechanisms to Practical Methods

Zhong MaDepartment of Chemical Engineering Waterloo Institute for Nanotechnology Waterloo Institute for Sustainable Energy University of Waterloo Waterloo Ontario N2L 3G1 CanadaZachary P. CanoDepartment of Chemical Engineering Waterloo Institute for Nanotechnology Waterloo Institute for Sustainable Energy University of Waterloo Waterloo Ontario N2L 3G1 CanadaAiping YuDepartment of Chemical Engineering Waterloo Institute for Nanotechnology Waterloo Institute for Sustainable Energy University of Waterloo Waterloo Ontario N2L 3G1 CanadaZhongwei ChenDepartment of Chemical Engineering Waterloo Institute for Nanotechnology Waterloo Institute for Sustainable Energy University of Waterloo Waterloo Ontario N2L 3G1 CanadaGaopeng JiangDepartment of Chemical Engineering Waterloo Institute for Nanotechnology Waterloo Institute for Sustainable Energy University of Waterloo Waterloo Ontario N2L 3G1 CanadaXiaogang FuDepartment of Chemical Engineering Waterloo Institute for Nanotechnology Waterloo Institute for Sustainable Energy University of Waterloo Waterloo Ontario N2L 3G1 CanadaLin YangSchool of Chemistry and Chemical Engineering Key Laboratory of Green Chemical Media and Reactions Ministry of Education, Henan Normal University Xinxiang 453007 ChinaTianpin WuX-ray Science Division Advanced Photon Sources Argonne National Laboratory 9700 South Cass Avenue Lemont IL 60439 USAZhengyu BaiSchool of Chemistry and Chemical Engineering Key Laboratory of Green Chemical Media and Reactions Ministry of Education, Henan Normal University Xinxiang 453007 ChinaJun LüChemical Sciences and Engineering Division Argonne National Laboratory 9700 South Cass Avenue Lemont IL 60439 USA
2020en
ABI

Annotatsiya

Pt-based electrocatalysts are considered as one of the most promising choices to facilitate the oxygen reduction reaction (ORR), and the key factor enabling their success is to reduce the required amount of platinum. Herein, we focus on illuminating both the theoretical mechanisms which enable enhanced and sustained ORR activity and the practical methods to achieve them in catalysts. The various multi-step pathways of ORR are firstly reviewed and the rate-determining steps based on the reaction intermediates and their binding energies are analyzed. We then explain the critical aspects of Pt-based electrocatalysts to tune oxygen reduction properties from the viewpoints of active sites exposure and altering the surface electronic structure, and further summarize representative research progress towards practically achieving these activity enhancements with a focus on platinum size reduction, shape control and core Pt elimination methods. We finally outline the remaining challenges and provide our perspectives with regard to further enhancing their activities.

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