用于电化学合成含氮化合物的非晶纳米材料的最新进展

IF 11.5 Q1 CHEMISTRY, PHYSICAL
Xiangyu Chen, Shuning Lv, Ziming Su, Xiuyi Yang, Hanke Cui, Zhao Yang, Ziyan Xu, Gilberto Teobaldi, Jianxin Kang, Li-Min Liu, Lin Guo
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引用次数: 0

摘要

传统的含氮化合物热化学合成法具有能耗高、污染大等缺点,因此人们对开发节能、高效、绿色的电化学替代品越来越感兴趣。无定形纳米材料因其特殊的结构和电子特性,在催化应用(包括含氮化合物的电化学合成)方面具有诸多优势。本文综述了非晶纳米材料作为电催化剂应用于从各种丰富的含 N 小分子(N2、NO、NO3- 等)高效电合成含 N 化合物的最新研究进展。报告讨论了无定形纳米材料的可控合成、结构优势及其对各种含 N 系统的增强电催化性能,重点是催化剂与催化反应之间的结构-功能关系,尤其是对 p 轨道调节的主族催化剂。最后,报告对未来各种含 N 化合物的电化学合成提出了建议,并介绍了当前面临的挑战和新的发展机遇。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Recent progress in amorphous nanomaterials for electrochemical synthesis of N-containing compounds

Recent progress in amorphous nanomaterials for electrochemical synthesis of N-containing compounds

Traditional thermochemical synthesis of N-containing compounds presents disadvantages in terms of high energy consumption and large pollution, motivating growing interest in the development of energy-saving, efficient, and green electrochemical alternatives. Due to their special structure and electronic properties, amorphous nanomaterials possess several advantages for applications in catalysis, which include electrochemical synthesis of N-containing compounds. This paper reviews recent research progress in the application of amorphous nanomaterials as electrocatalysts for efficient electrosynthesis of N-containing compounds from a variety of abundant N-containing small molecules (N2, NO, NO3, etc.). It discusses the controllable synthesis and structural advantages of amorphous nanomaterials and their enhanced electrocatalytic properties for various N-containing systems with emphasis on the structure-function relationships between the catalysts and catalytic reactions, especially for the p orbital regulated main group catalysts. Finally, it makes recommendations for future electrochemical synthesis of various N-containing compounds and describes current challenges as well as opportunities for new developments.

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来源期刊
CiteScore
10.50
自引率
6.40%
发文量
0
期刊介绍: Chem Catalysis is a monthly journal that publishes innovative research on fundamental and applied catalysis, providing a platform for researchers across chemistry, chemical engineering, and related fields. It serves as a premier resource for scientists and engineers in academia and industry, covering heterogeneous, homogeneous, and biocatalysis. Emphasizing transformative methods and technologies, the journal aims to advance understanding, introduce novel catalysts, and connect fundamental insights to real-world applications for societal benefit.
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