Exploiting Lattice Carbon-Induced Modulation Effect in Nickel towards Efficient Alkaline Hydrogen Oxidation

IF 16.1 1区化学 Q1 CHEMISTRY, MULTIDISCIPLINARY Angewandte Chemie International Edition Pub Date : 2025-01-13 DOI:10.1002/anie.202423647

Jian He, Liu Luo, Jinchi Li, Shiqi Chen, Shuqi Yu, Liang Zeng, Yao Wang, Yungui Chen

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Abstract

Doping with non-metallic heteroatom is an effective approach to tailor the electronic structure of Ni for enhancing its alkaline hydrogen oxidation reaction (HOR) catalytic performance. However, the modulation of HOR activity of Ni by lattice carbon (LC) atoms has rarely been reported, especially to reveal the rule between the doping effect and activity caused by the content of LC atoms. Here, hydrogen is proposed as a scavenger for LC atoms in the pyrolytic reduction process to finely control the content of LC atoms in Ni. With the removal of LC atoms in Ni lattice, the electronic structure changes from Ni3C-like electronic structure to quasi-Ni structure. Furthermore, a volcanic relationship between the LC content and HOR activity of Ni is established for the first time. The Cless-Ni (LC0.44-Ni) with optimized LC content shows the best activity owing to the weakened hydrogen binding energy (HBE) and optimal hydroxyl binding energy (OHBE). This work provides an inspiration for the design of high-performance catalysts by tailoring the electronic structure of the metal via LC atoms doping.

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利用镍晶格碳诱导的调制效应实现高效碱性氢氧化

非金属杂原子掺杂是调整Ni电子结构以提高其碱性氢氧化反应（HOR）催化性能的有效途径。然而，晶格碳（LC）原子对Ni的HOR活性的调制很少有报道，特别是揭示了LC原子含量引起的掺杂效应与活性之间的规律。本文提出在热解还原过程中，氢作为LC原子的清除剂，以精细控制Ni中LC原子的含量。随着Ni晶格中LC原子的去除，电子结构由类ni3c电子结构转变为准Ni结构。此外，还首次建立了LC含量与Ni的HOR活性之间的火山关系。LC含量优化后的less- ni （LC0.44-Ni）具有较弱的氢结合能（HBE）和较优的羟基结合能（OHBE），活性最佳。通过LC原子掺杂调整金属的电子结构，为高性能催化剂的设计提供了灵感。

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来源期刊

Angewandte Chemie International Edition 化学-化学综合

CiteScore

26.60

自引率

6.60%

发文量

3549

审稿时长

1.5 months

期刊介绍： Angewandte Chemie, a journal of the German Chemical Society (GDCh), maintains a leading position among scholarly journals in general chemistry with an impressive Impact Factor of 16.6 (2022 Journal Citation Reports, Clarivate, 2023). Published weekly in a reader-friendly format, it features new articles almost every day. Established in 1887, Angewandte Chemie is a prominent chemistry journal, offering a dynamic blend of Review-type articles, Highlights, Communications, and Research Articles on a weekly basis, making it unique in the field.