The development and utilization of renewable clean energy can effectively solve the two major problems of energy and environment.As an efficient power generation device that converts hydrogen energy into elec-tric energy,fuel cell has attracted more and more attention.For fuel cells,the oxygen reduction reaction(ORR)at the cathode is the core reaction,and the design and development of high-performance ORR cata-lysts remain quite challenging.Since the microenvironment of the active center of single atom catalysts(SACs)has an important influence on its catalytic performance,it has been a research focus to improve the ORR activity and stability of electrocatalysts by adjusting the structure of the active center through rea-sonable structural regulation methods.In this review,we reviewed the preparation and structure-activity relationship of SACs for ORR.Then,the structural precision regulation methods for improving the activity and stability of ORR electrocatalysts are discussed.And the advanced in-situ characterization techniques for revealing the changes of active sites in the electrocatalytic ORR process are summarized.Finally,the chal-lenges and future design directions of SACs for ORR are discussed.This work will provide important refer-ence value for the design and synthesis of SACs with high activity and stability for ORR.

State Key Laboratory of Heavy Oil Processing,China University of Petroleum(East China),Qingdao 266580,Shandong,China

[1]Minmin Wang;Hui Zhang;Yunqi Liu;Yuan Pan-.Research progress of precise structural regulation of single atom catalyst for accelerating electrocatalytic oxygen reduction reaction)[J].能源化学,2022(09):56-72

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