Theoretical Study on the Modulation of Oxygen Electrocatalysis in Co-Based Single-Atom Catalysts by N and S Co-Coordination

IF 3.5 3区化学 Q2 CHEMISTRY, INORGANIC & NUCLEAR

Dalton Transactions Pub Date : 2025-04-25 DOI:10.1039/d5dt00771b

Rui He, Xinyu Zhang, Linlin Zhang, Nan Chen, Zhen Gao, Yanning Wang, Kai Xiong

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Abstract

Understanding how local coordination environments influence oxygen electrocatalytic activity is essential for designing efficient non-precious metal catalysts. In this work, density functional theory (DFT) calculations were performed to systematically explore the impact of N/S co-coordination on the electronic structure and catalytic properties of graphene-supported cobalt single-atom catalysts (SACs). The results demonstrate that all Co–N–S configurations exhibit negative formation energies and positive dissolution potentials, suggesting favorable thermodynamic and electrochemical stability. Among these configurations, CoN₂S₂-pen shows a lower oxygen reduction reaction (ORR) overpotential of 0.53 V, while CoN₂S₂-hex exhibits superior oxygen evolution reaction (OER) performance with an overpotential of 0.42 V. Analyses of charge density differences and projected density of states (PDOS) reveal strong hybridization between Co 3d and O 2p orbitals, which facilitates O₂ activation and stabilizes intermediate adsorption. These findings underscore the potential of N/S co-coordination in modulating the electronic structure and enhancing the bifunctional oxygen electrocatalytic performance of Co-based SACs.

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N和S配位调制co基单原子催化剂氧电催化的理论研究

了解局部配位环境如何影响氧电催化活性对于设计高效的非贵金属催化剂至关重要。本文通过密度泛函理论（DFT）计算，系统地探讨了N/S共配对石墨烯负载钴单原子催化剂（SACs）的电子结构和催化性能的影响。结果表明，所有Co-N-S构型均表现为负的形成能和正的溶解势，具有良好的热力学和电化学稳定性。其中，CoN₂S₂-pen的氧还原反应（ORR）过电位较低，为0.53 V， CoN₂S₂-hex的析氧反应（OER）过电位较好，为0.42 V。电荷密度差和投射态密度（PDOS）分析表明，co3 - 3和o2 - 2轨道之间存在强杂化，有利于o2活化和稳定中间吸附。这些发现强调了N/S协同在调节电子结构和增强co基SACs双功能氧电催化性能方面的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Dalton Transactions 化学-无机化学与核化学

CiteScore

6.60

自引率

7.50%

发文量

1832

审稿时长

1.5 months

期刊介绍： Dalton Transactions is a journal for all areas of inorganic chemistry, which encompasses the organometallic, bioinorganic and materials chemistry of the elements, with applications including synthesis, catalysis, energy conversion/storage, electrical devices and medicine. Dalton Transactions welcomes high-quality, original submissions in all of these areas and more, where the advancement of knowledge in inorganic chemistry is significant.