Journal ArticleDOI
A universal principle for a rational design of single-atom electrocatalysts
Haoxiang Xu,Daojian Cheng,Dapeng Cao,Xiao Cheng Zeng,Xiao Cheng Zeng +4 more
- Vol. 1, Iss: 5, pp 339-348
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TLDR
In this article, a universal design principle was proposed to evaluate the catalytic activity of single-atom catalysts for electrochemical reactions, which is a key to future renewable energy technology.Abstract:
Developing highly active single-atom catalysts for electrochemical reactions is a key to future renewable energy technology. Here we present a universal design principle to evaluate the activity of graphene-based single-atom catalysts towards the oxygen reduction, oxygen evolution and hydrogen evolution reactions. Our results indicate that the catalytic activity of single-atom catalysts is highly correlated with the local environment of the metal centre, namely its coordination number and electronegativity and the electronegativity of the nearest neighbour atoms, validated by available experimental data. More importantly, we reveal that this design principle can be extended to metal–macrocycle complexes. The principle not only offers a strategy to design highly active nonprecious metal single-atom catalysts with specific active centres, for example, Fe-pyridine/pyrrole-N4 for the oxygen reduction reaction; Co-pyrrole-N4 for the oxygen evolution reaction; and Mn-pyrrole-N4 for the hydrogen evolution reaction to replace precious Pt/Ir/Ru-based catalysts, but also suggests that macrocyclic metal complexes could be used as an alternative to graphene-based single-atom catalysts.read more
Citations
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Journal ArticleDOI
Single-Atom Catalysts: Synthetic Strategies and Electrochemical Applications
TL;DR: In this article, the authors highlight and summarize recent advances in wet-chemistry synthetic methods for single-atom catalysts with special emphasis on how to achieve the stabilization of single metal atoms against migration and agglomeration.
Journal ArticleDOI
Tuning the Coordination Environment in Single-Atom Catalysts to Achieve Highly Efficient Oxygen Reduction Reactions.
Jinqiang Zhang,Yufei Zhao,Chen Chen,Yu-Cheng Huang,Chung-Li Dong,Chih Jung Chen,Ru-Shi Liu,Ru-Shi Liu,Chengyin Wang,Kang Yan,Yadong Li,Guoxiu Wang +11 more
TL;DR: Insight is provided into the rational design of the definitive structure of single-atom catalysts with tunable electrocatalytic activities for efficient energy conversion and Fe-SAs/NSC exhibits the highest of all, which is even better than commercial Pt/C.
Journal ArticleDOI
Cascade anchoring strategy for general mass production of high-loading single-atomic metal-nitrogen catalysts.
Lu Zhao,Yun Zhang,Yun Zhang,Lin-Bo Huang,Xiaozhi Liu,Qinghua Zhang,Chao He,Ze-Yuan Wu,Linjuan Zhang,Jinpeng Wu,Wanli Yang,Lin Gu,Jin-Song Hu,Li-Jun Wan +13 more
TL;DR: A general cascade anchoring strategy for the mass production of a series of metal-Nx SACs with a metal loading up to 12.1 wt%, which paves a universal way to produce stable M-NC SAC with high-density metal- Nx sites for diverse high-performance applications.
Journal ArticleDOI
Single-Atom Catalysts across the Periodic Table.
TL;DR: A compositional encyclopedia of SACs is provided, celebrating the 10th anniversary of the introduction of this term, and examines the coordination structures and associated properties accessed through distinct single-atom-host combinations and relate them to their main applications in thermo-, electro-, and photocatalysis.
Journal ArticleDOI
Modulating the local coordination environment of single-atom catalysts for enhanced catalytic performance
TL;DR: In this article, the characterization of the coordination environment, tailoring of the local coordination environment and their related adjustable catalytic performance are discussed. But the focus of this paper is on single-atom catalysts.
References
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A Computational Study
TL;DR: This chapter continues with a detailed computational study of the most powerful algorithm on 162 benchmark problems and discusses the suitability of the algorithm for either very large or very difficult JSP instances.
Journal ArticleDOI
An Advanced Nitrogen‐Doped Graphene/Cobalt‐Embedded Porous Carbon Polyhedron Hybrid for Efficient Catalysis of Oxygen Reduction and Water Splitting
TL;DR: In this article, a novel hybrid electrocatalyst consisting of nitrogen-doped graphene/cobalt-embedded porous carbon polyhedron was prepared through simple pyrolysis of graphene oxide-supported cobalt-based zeolitic imidazolate-frameworks.
Journal ArticleDOI
High performance platinum single atom electrocatalyst for oxygen reduction reaction
Jing Liu,Menggai Jiao,Lanlu Lu,Heather M. Barkholtz,Yuping Li,Ying Wang,Luhua Jiang,Zhijian Wu,Di-Jia Liu,Lin Zhuang,Chao Ma,Jie Zeng,Bingsen Zhang,Dang Sheng Su,Dang Sheng Su,Ping Song,Wei Xing,Weilin Xu,Zheng Jiang,Gongquan Sun +19 more
TL;DR: A carbon black-supported cost-effective, efficient and durable platinum single-atom electrocatalyst with carbon monoxide/methanol tolerance for the cathodic oxygen reduction reaction in fuel cells is reported.