, том 1 , издание 5 , страницы 339-348

A universal principle for a rational design of single-atom electrocatalysts

Xu Haoxiang ¹

Daojian Cheng ^{1, 2}

Dapeng Cao ^{1, 2}

Xiao Zeng ^{1, 3}

Скрыть аффилиации авторов Показать аффилиации авторов: 3 аффилиации

Beijing Advanced Innovation Center for Soft Matter Science and Engineering, Beijing University of Chemical Technology, Beijing, China |

State Key Laboratory of Organic-Inorganic Composites, Beijing Key Laboratory of Energy Environmental Catalysis, Beijing University of Chemical Technology, Beijing, China |

Department of Chemistry, Department of Chemical & Biomolecular Engineering, and Department of Mechanical & Materials Engineering, University of Nebraska, Lincoln, USA |

Тип публикации: Journal Article

Дата публикации: 2018-04-30

Springer Nature

Nature Catalysis

scimago Q1

wos Q1

БС1

SJR: 14.132

CiteScore: 57.7

Impact factor: 44.6

ISSN: 25201158

DOI: 10.1038/s41929-018-0063-z

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Catalysis

Biochemistry

Process Chemistry and Technology

Bioengineering

Краткое описание

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. Energy-based descriptors have proven very successful in recent years despite their impracticality from an experimental viewpoint. Here, a universal descriptor based only on electronegativities and coordination numbers is put forward to predict the activity of carbon-based single-metal-atom catalysts for three of the most important electrocatalytic reactions. This descriptor can be extended to metal–macrocycle complexes with similar coordination environments.

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Haoxiang X. et al. A universal principle for a rational design of single-atom electrocatalysts // Nature Catalysis. 2018. Vol. 1. No. 5. pp. 339-348.

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Haoxiang X., Cheng D., Cao D., Zeng X. A universal principle for a rational design of single-atom electrocatalysts // Nature Catalysis. 2018. Vol. 1. No. 5. pp. 339-348.

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TY - JOUR

DO - 10.1038/s41929-018-0063-z

UR - https://doi.org/10.1038/s41929-018-0063-z

TI - A universal principle for a rational design of single-atom electrocatalysts

T2 - Nature Catalysis

AU - Haoxiang, Xu

AU - Cheng, Daojian

AU - Cao, Dapeng

AU - Zeng, Xiao

PY - 2018

DA - 2018/04/30

PB - Springer Nature

SP - 339-348

IS - 5

VL - 1

SN - 2520-1158

ER -

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@article{2018_Haoxiang,

author = {Xu Haoxiang and Daojian Cheng and Dapeng Cao and Xiao Zeng},

title = {A universal principle for a rational design of single-atom electrocatalysts},

journal = {Nature Catalysis},

year = {2018},

volume = {1},

publisher = {Springer Nature},

month = {apr},

url = {https://doi.org/10.1038/s41929-018-0063-z},

number = {5},

pages = {339--348},

doi = {10.1038/s41929-018-0063-z}

}

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Haoxiang, Xu, et al. “A universal principle for a rational design of single-atom electrocatalysts.” Nature Catalysis, vol. 1, no. 5, Apr. 2018, pp. 339-348. https://doi.org/10.1038/s41929-018-0063-z.

Издатель

Springer Nature

Журнал

Nature Catalysis

scimago Q1

wos Q1

БС1

SJR

14.132

CiteScore

57.7

Impact factor

44.6

ISSN

25201158 (Electronic)