具有增强氧还原活性的氮和氧多配位钒单原子

N and O multi-coordinated vanadium single atom with enhanced oxygen reduction activity.

作者信息

Cheng Ling, Huang Hao, Lin Zhiyu, Yang Yang, Yuan Qing, Hu Lin, Wang Changlai, Chen Qianwang

机构信息

Department of Materials Science & Engineering, University of Science and Technology of China, Jinzhai Road NO.96, Hefei, Anhui 230026, PR China.

The Anhui High Magnetic Field Laboratory, Hefei Institutes of Physical Science, Chinese Academy of Sciences, Hefei, Anhui 230031, PR China.

出版信息

J Colloid Interface Sci. 2021 Jul 15;594:466-473. doi: 10.1016/j.jcis.2021.03.074. Epub 2021 Mar 18.

DOI:10.1016/j.jcis.2021.03.074

PMID:33774402

Abstract

Recently, atomically dispersed transition-metal single atom in nitrogen-doped carbon matrix as electrocatalysts has aroused general interest. However, there is no report about vanadium single atom for ORR in the literature. According to d-band center theory for transition-metals, the performance of catalysts is regulated by the electronic structure of the catalytic center which determines the intermediate adsorption kinetics. Indeed, the valence of vanadium is variable, its electron structure could be modulated by an appropriate coordination structure. Here, a novel method is developed to prepare the N and O co-coordinated vanadium single atom (V-NO) embedded in the carbon matrix. The catalyst displays a half-wave potential of 865 mV in base solution which surpasses 20% Pt/C, and also shows a high power density of 180 mW/cm in Zn-air batteries. DFT calculations reveal that the N and O coordination configuration could regulate the electron structure and geometry of vanadium to boost the electrocatalytic activity.

摘要

近年来，氮掺杂碳基体中的原子分散过渡金属单原子作为电催化剂引起了广泛关注。然而，文献中尚无关于钒单原子用于氧还原反应（ORR）的报道。根据过渡金属的d带中心理论，催化剂的性能由催化中心的电子结构调节，而催化中心的电子结构决定了中间产物的吸附动力学。实际上，钒的化合价是可变的，其电子结构可以通过适当的配位结构进行调节。在此，开发了一种新方法来制备嵌入碳基体中的氮和氧共配位钒单原子（V-NO）。该催化剂在碱性溶液中的半波电位为865 mV，超过了20%的Pt/C，并且在锌空气电池中还显示出180 mW/cm的高功率密度。密度泛函理论（DFT）计算表明，氮和氧的配位构型可以调节钒的电子结构和几何形状，从而提高电催化活性。

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具有增强氧还原活性的氮和氧多配位钒单原子

N and O multi-coordinated vanadium single atom with enhanced oxygen reduction activity.

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