Issue 29, 2018

Recent progress in single-atom electrocatalysts: concept, synthesis, and applications in clean energy conversion

Abstract

Electrochemical energy plays a key role in direct conversion into value-added products by using renewable electricity. Single-atom catalysts (SACs) can maximize the efficiency of metal-atom utilization, thus achieving high activity, stability, and selectivity in electrocatalytic reactions. SACs can overcome some limitations of bulk materials in electrocatalytic applications. In this review, we introduce SACs consisting of various single metal atoms, including noble and transition metals, anchored on various supports, such as metals, metal oxides, porous carbon, graphene, and g-C3N4. These catalysts possessed various binding modes between the single atoms and anchoring sites. We also review and highlight novel and promising methods to obtain SACs. Such methods include wet chemistry, metal etching, electrodeposition, and metal–organic-framework-derived methods. We also focused on the electrocatalytic applications of SACs in representative electrochemical applications such as oxygen reduction, hydrogen evolution, oxygen evolution, carbon dioxide reduction, and nitrogen reduction reactions. Significantly, the electrocatalytic performance can be tuned by engineering the structure of SACs in terms of binding mode, coordination number, and dispersion tendencies. Finally, we provide perspectives on the design of SACs for future applications in various electrocatalytic processes in energy conversion.

Graphical abstract: Recent progress in single-atom electrocatalysts: concept, synthesis, and applications in clean energy conversion

Article information

Article type
Review Article
Submitted
02 mai 2018
Accepted
25 juin 2018
First published
26 juin 2018

J. Mater. Chem. A, 2018,6, 14025-14042

Recent progress in single-atom electrocatalysts: concept, synthesis, and applications in clean energy conversion

J. Su, R. Ge, Y. Dong, F. Hao and L. Chen, J. Mater. Chem. A, 2018, 6, 14025 DOI: 10.1039/C8TA04064H

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