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富含空位的MXene负载镍单原子作为肼氧化反应的高性能电催化剂

Vacancy-Rich MXene-Immobilized Ni Single Atoms as a High-Performance Electrocatalyst for the Hydrazine Oxidation Reaction.

作者信息

Zhou Shiqi, Zhao Yunxuan, Shi Run, Wang Yucheng, Ashok Anumol, Héraly Frédéric, Zhang Tierui, Yuan Jiayin

机构信息

Department of Materials and Environmental Chemistry, Stockholm University, Stockholm, 10691, Sweden.

Key Laboratory of Photochemical Conversion and Optoelectronic Materials, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing, 100190, P. R. China.

出版信息

Adv Mater. 2022 Sep;34(36):e2204388. doi: 10.1002/adma.202204388. Epub 2022 Aug 7.

DOI:10.1002/adma.202204388
PMID:35839429
Abstract

Single-atom catalysts (SACs), on account of their outstanding catalytic potential, are currently emerging as high-performance materials in the field of heterogeneous catalysis. Constructing a strong interaction between the single atom and its supporting matrix plays a pivotal role. Herein, Ti C T -MXene-supported Ni SACs are reported by using a self-reduction strategy via the assistance of rich Ti vacancies on the Ti C T MXene surface, which act as the trap and anchor sites for individual Ni atoms. The constructed Ni SACs supported by the Ti C T MXene (Ni SACs/Ti C T ) show an ultralow onset potential of -0.03 V (vs reversible hydrogen electrode (RHE)) and an exceptional operational stability toward the hydrazine oxidation reaction (HzOR). Density functional theory calculations suggest a strong coupling of the Ni single atoms and their surrounding C atoms, which optimizes the electronic density of states, increasing the adsorption energy and decreasing the reaction activation energy, thus boosting the electrochemical activity. The results presented here will encourage a wider pursuit of 2D-materials-supported SACs designed by a vacancy-trapping strategy.

摘要

单原子催化剂(SACs)因其出色的催化潜力,目前正在异相催化领域中作为高性能材料崭露头角。在单原子与其支撑基体之间构建强相互作用起着关键作用。在此,通过利用TiCT MXene表面丰富的Ti空位作为单个Ni原子的捕获和锚定位点,采用自还原策略报道了TiCT -MXene负载的Ni单原子催化剂。由TiCT MXene负载的构建的Ni单原子催化剂(Ni SACs/TiCT)对肼氧化反应(HzOR)显示出-0.03 V(相对于可逆氢电极(RHE))的超低起始电位和出色 的操作稳定性。密度泛函理论计算表明,Ni单原子与其周围的C原子存在强耦合,这优化了态密度,增加了吸附能并降低了反应活化能,从而提高了电化学活性。此处展示的结果将鼓励更广泛地探索通过空位捕获策略设计的二维材料负载的单原子催化剂。

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