Single-Atom Catalysts: From Design to Application

Niancai Cheng; Lei Zhang; Kieran Doyle-Davis; Xueliang Sun

doi:10.1007/s41918-019-00050-6

Electrochemical Energy Reviews ›› 2019, Vol. 2 ›› Issue (4) : 539 -573. DOI: 10.1007/s41918-019-00050-6

Review Article

Single-Atom Catalysts: From Design to Application

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¹Department of Mechanical and Materials Engineering, University of Western Ontario, N6A 5B9, London, ON, Canada

²College of Materials Science and Engineering, Fuzhou University, 350108, Fuzhou, China

^d xsun@eng.uwo.ca

Dr. Niancai Cheng

is a professor in the College of Materials Science and Engineering at Fuzhou University. Dr. Cheng received his Ph.D. in new energy materials at Wuhan University of technology in 2010. His research interests focus on materials science for electrochemical energy conversion and storage including fuel cells and batteries.

Dr. Lei Zhang

received his B.S. degree in Chemistry (2008) and Ph.D. degree in Nanomaterial Chemistry (2014) from Xiamen University with Prof. Zhaoxiong Xie. He was a visiting graduate student at Georgia Institute of Technology in Prof. Younan Xia’s group from 2012 to 2014. From 2015 to 2016, he worked as a Postdoc at Collaborative Innovation Center of Chemical Science and Engineering in Tianjin University. He is currently a postdoctoral associate with Prof. Xueliang Sun at Western University. His research interests include the design and synthesis of metal nanomaterials and single-atom catalysts for fuel cells and water splitting devices.

Kieran Doyle-Davis

received his Honors B.Sc. in Physics from McMaster University in 2018, with research focus on process optimization for lithium-ion battery fabrication, and thin polymer films. Kieran is currently an M.E.Sc. candidate at the University of Western Ontario under the supervision of Prof. Xueliang Sun. His current research interests include the development of next-generation surface-modified 3-D current collectors for both solution and solid-state lithium-ion batteries.

Xueliang Sun

is a Canada Research Chair in Development of Nanomaterials for Clean Energy, Fellow of the Royal Society of Canada and Canadian Academy of Engineering and Full Professor at the University of Western Ontario, Canada. Dr. Sun received his Ph.D. in materials chemistry in 1999 from the University of Manchester, UK, which he followed up by working as a postdoctoral fellow at the University of British Columbia, Canada, and as a Research Associate at L’Institut National de la Recherche Scientifique (INRS), Canada. His current research interests are focused on advanced materials for electrochemical energy storage and conversion, including electrocatalysis in fuel cells and electrodes in lithium-ion batteries and metal-air battery.

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Abstract

Abstract

Single-atom catalysis is a powerful and attractive technique with exceptional performance, drastic cost reduction and notable catalytic activity and selectivity. In single-atom catalysis, supported single-atom catalysts contain isolated individual atoms dispersed on, and/or coordinated with, surface atoms of appropriate supports, which not only maximize the atomic efficiency of metals, but also provide an alternative strategy to tune the activity and selectivity of catalytic reactions. This review will highlight the attributes of single-atom catalysis and summarize the most recent advancements in single-atom catalysts with a focus on the design of highly active and stable single atoms. In addition, new research directions and future trends will also be discussed.

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Niancai Cheng, Lei Zhang, Kieran Doyle-Davis, Xueliang Sun. Single-Atom Catalysts: From Design to Application. Electrochemical Energy Reviews, 2019, 2(4): 539-573 DOI:10.1007/s41918-019-00050-6