Progress in fabrication of one-dimensional catalytic materials by electrospinning technology

Zhu Silong; Nie Longhui

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Progress in fabrication of one-dimensional catalytic materials by electrospinning technology

机译：静电纺丝技术制造一维催化材料的研究进展

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Electrospinning technology is regarded as a simple, versatile, and cost-efficient approach in fabricating one-dimensional (1D) nanomaterials in a large scale. The prepared 1D fiberous materials by electrospinning technology possess the merits of large specific surface area, tunable chemical composition, morphology, fiber diameter and high porosity, causing them to be extensively applied in the field of catalysis. In this review, we firstly have a brief introduction to the working principle of electrospinning technology and the influence factors to the electrospun materials. Then, we highlight the investigations of various 1D electrospun fiberous catalytic materials in the applications of photocatalysis, thermocatalysis, electrocatalysis, and the relations between catalytic properties with composition, unique 1D structure and morphology as well as related catalytic mechanisms are summarized and discussed. Finally, a conclusion is presented and future work is prospected. (C) 2020 The Korean Society of Industrial and Engineering Chemistry. Published by Elsevier B.V. All rights reserved.

机译：静电纺丝技术被认为是大规模制备一维纳米材料的一种简单、通用、经济的方法。利用静电纺丝技术制备的一维纤维材料具有比表面积大、化学成分、形貌、纤维直径可调、孔隙率高等优点，在催化领域有着广泛的应用。本文首先简要介绍了静电纺丝技术的工作原理以及影响静电纺丝材料性能的因素。然后，我们重点介绍了各种一维电纺纤维催化材料在光催化、热催化、电催化等方面的应用研究，总结和讨论了催化性能与组成、独特的一维结构和形貌的关系以及相关的催化机理。最后给出了结论，并对未来的工作进行了展望。（C） 2020年，韩国工业和工程化学学会。由爱思唯尔B.V.出版。版权所有。

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《Journal of industrial and engineering chemistry》 |2021年第1期|共29页
作者
Zhu Silong; Nie Longhui;
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作者单位

Hubei Univ Technol Hubei Prov Key Lab Green Mat Light Ind Wuhan 430068 Peoples R China;

Hubei Univ Technol Hubei Prov Key Lab Green Mat Light Ind Wuhan 430068 Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类化学工业;
关键词
Electrospinning; One-dimensional catalytic material; Structural properties; Catalytic mechanism;

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Progress in fabrication of one-dimensional catalytic materials by electrospinning technology

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