Recent advances in single-atom catalysts for acidic electrochemical oxygen reduction to hydrogen peroxide

Recent advances in single-atom catalysts for acidic electrochemical oxygen reduction to hydrogen peroxide

Electrochemical acidic oxygen reduction reaction (ORR) via 2e- pathway is a promising approach to produce hydrogen peroxide (H2O2). Among them, single-atom catalysts are widely used for acidic ORR to generate H2O2 due to some unique advantages, such as their maximum atom utilization efficiency, tuna...

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Bibliographic Details
Published in:Nano energy Vol. 116; p. 108798
Main Authors: Zhang, Qian, Zheng, Lufan, Gu, Fangwei, Wu, Jinting, Gao, Jian, Zhang, Yong-Chao, Zhu, Xiao-Dong
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-11-2023
Subjects:
Acidic media
Electrocatalysis
Hydrogen peroxide
Oxygen reduction reaction
Single-atom catalysts
Electrocatalysis
Single-atom catalysts
Hydrogen peroxide
Oxygen reduction reaction
Acidic media
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Summary:Electrochemical acidic oxygen reduction reaction (ORR) via 2e- pathway is a promising approach to produce hydrogen peroxide (H2O2). Among them, single-atom catalysts are widely used for acidic ORR to generate H2O2 due to some unique advantages, such as their maximum atom utilization efficiency, tunable electronic structure, and excellent catalytic performance. It is urgent to summarize the use of SACs for acidic ORR to H2O2, especially the systematic elaboration of their catalytic mechanism and structure-activity relationship. Herein, the synthesis, characterization and catalytic mechanism of SACs including some noble metal and transition metal SACs for acidic ORR to H2O2 are systematically described. Some important activity descriptors, especially the regulation methods for the binding energy of key oxygenated intermediates, are highlighted. Finally, the challenges and outlooks of acidic ORR to H2O2 using SACs are proposed. It is hoped that this review is helpful to elucidate the important role of SACs in the electrosynthesis of H2O2 and provide assistance for the design of efficient catalysts. [Display omitted] •Recent progress on SACs for acidic 2e- ORR to H2O2 is systemically reviewed from an experimental and theoretical perspective.•The design and synthesis method of SACs, and some strategies for boosting 2e- ORR performance are summarized and discussed.•The importance of the regulation of the binding energy of *OOH, *OH and *O to enhance 2e- ORR performance is summarized.•The challenges and prospects of single-atom catalysts for 2e- ORR are presented.
ISSN:2211-2855
DOI:10.1016/j.nanoen.2023.108798