Emerging Metal Single Atoms in Electrocatalysts and Batteries

Lianbo Ma, Guoyin Zhu, Dandan Wang, Huixian Chen, Yaohui Lv, Yizhou Zhang, Xiaojun He, Huan Pang

Research output: Contribution to journalArticlepeer-review

36 Scopus citations


Energy conversion and storage applications require highly stable and efficient electrocatalysts/electrodes to facilitate electrochemical reactions, but these materials commonly suffer from serious atom wastes and lower performances than the theoretical levels, which cannot meet the increasing demands of the green atomic economy, thereby limiting their practical applications. Recently, metal single atoms (SAs) have attracted tremendous attention owing to their merits of full atom utilization, unique electronic structures, tunable surface characteristics, and low costs. However, metal SAs usually have relatively low physical/chemical stabilities due to their high surface energy, which results in severe degradation of electrochemical performances. Novel synthetic strategies are developed for metal SAs with better stability and performance. In this review, these strategies will be introduced in the context of electrocatalysis and batteries. Specifically, the design concepts, synthesis approach properties, and applications of metal SAs will be discussed. Finally, the critical challenges and future perspectives of metal SAs are presented. This review aims to provide new insights for future work as well as the real-world applications of metal SAs.
Original languageEnglish (US)
Pages (from-to)2003870
JournalAdvanced Functional Materials
StatePublished - Aug 27 2020

Bibliographical note

KAUST Repository Item: Exported on 2020-10-01
Acknowledgements: L.M. and G.Z. contributed equally to this work. This project was financially supported by the Scientific Research Foundation of Anhui University of Technology for Talent Introduction (Grant No. DT19100069), the Anhui Provincial Natural Science Foundation (Grant No. 1808085ME138), and the Natural Science Foundation of Anhui Provincial Education Department (Grant No. KJ2019A0075). This work was also supported by the National Natural Science Foundation of China (Grant No. NSFC-U1904215).


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