ChemPhysChem

DFT Study of the ORR Catalytic Activity of As‐Doped and As‐N Co‐Doped Graphene Substrates

Xiaoliang Zhang ^{1, 2}

Tingting Chen ^{1, 2}

Jinmin Guo ^{2, 3}

Weiwei Shao ^{1, 2}

Hongfeng Yan ^{1, 2}

Bingling He ^{4, 5}

Wei Song ^{6, 7}

QINGLING MENG ^{8, 9}

Jinlong Wang ^{2, 10, 11}

Xiaochun Li ¹²

Xiao-chun Li ¹¹

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Tongling University School of Electrical Engineering CHINA |

School of Electronic Engineering Tongling University Tongling People's Republic of China

Tongling University Library CHINA |

⁴

Chaohu University School of Electrical Engineering CHINA |

⁵

School of Electronic Engineering Chaohu University, Chaohu People's Republic of China

⁶

Henan Institute of Technology School of Electrical Engineering CHINA |

⁷

School of Science Henan Institute of Technology Xinxiang 453003 Henan P.R. China |

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Xinxiang University Physics CHINA |

⁹

School of Physics and Electronic Information Engineering Xinxiang University People's Republic of China

¹⁰

Tongling University school of electrical and engineering cuhu street 244000 Tongling CHINA |

¹¹

Institute of plasma physics HFIPS Chinese Academy of Sciences Hefei People's Republic of China

¹²

Hefei Institutes of Physical Science Chinese Academy of Sciences: Chinese Academy of Sciences Hefei Institutes of Physical Science Physics 蜀山区 Hefei 230031 Hefei CHINA |

Publication type: Journal Article

Publication date: 2025-02-17

Wiley

Journal: ChemPhysChem

scimago Q2

wos Q2

SJR: 0.623

CiteScore: 4.6

Impact factor: 2.3

ISSN: 14394235, 14397641

DOI: 10.1002/cphc.202401080

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Abstract

This study employs first‐principles methods to investigate the ORR catalytic activity of As‐doped and AsN co‐doped graphene. As atoms, as catalytic active sites, exhibit excellent catalytic activity. Due to the strong interaction between As and N, the stability of the As−N co‐doped substrate is enhanced. In particular, As−N4 co‐doped graphene not only demonstrates the best thermodynamic and kinetic stability, but also has an ORR overpotential of only 0.53 V. We also propose a method to predict the Gibbs free energy change of the system by calculating the adsorption energies of the adsorbates. This approach can streamline the process by eliminating the need to calculate the Gibbs free energy of the ORR system, making it highly advantageous for future studies on the ORR catalytic activity of multi‐impurity co‐doped graphene.