通过催化剂协同作用提高木质素衍生碳纳米纤维的光催化性能。

Improved photocatalytic property of lignin-derived carbon nanofibers through catalyst synergy.

作者信息

Zhai Gongxun, Zhou Jialiang, Xie Min, Jia Chao, Hu Zexu, Xiang Hengxue, Zhu Meifang

机构信息

State Key Laboratory for Modification of Chemical Fibers and Polymer Materials, College of Materials Science and Engineering, Donghua University, Shanghai 201620, China.

State Key Laboratory for Modification of Chemical Fibers and Polymer Materials, College of Materials Science and Engineering, Donghua University, Shanghai 201620, China; Jiangsu Gem Advanced Fiber Materials Research Institute Co., Ltd., Nantong 226000, China.

出版信息

Int J Biol Macromol. 2023 Apr 1;233:123588. doi: 10.1016/j.ijbiomac.2023.123588. Epub 2023 Feb 9.

DOI:10.1016/j.ijbiomac.2023.123588

PMID:36764341

Abstract

Converting lignin into high value-added products is essential to reduce our dependence on petroleum resources and protect our environment. In this work, TiO and g-CN are loaded in the lignin-derived carbon nanofibers (LCNFs) and an efficient LCNFs-based photocatalytic material (TiO/g-CN@LCNFs) is developed. The spinnability of lignin solution, the chemical structure and morphology of the LCNFs, and the catalytic degradation property of the TiO/g-CN@LCNFs for Rhodamine B (RhB) are systematically investigated. The TiO/g-CN@LCNFs achieve a 92.76 % degradation rate of RhB under UV-vis irradiation, which is close to or higher than most reported carbon fiber-based photocatalysts. The excellent degradation property of the photocatalysts can be ascribed to the synergy of TiO and g-CN, which improves the excitation efficiency of electron and hole, and prolongs the lifetime of electron-hole pairs. We envision that our work will provide some guidance for the development of efficient photocatalysts based on biomass-derived fiber materials.

摘要

将木质素转化为高附加值产品对于减少我们对石油资源的依赖和保护环境至关重要。在这项工作中，TiO和g-CN负载于木质素衍生的碳纳米纤维（LCNFs）中，并开发出一种高效的基于LCNFs的光催化材料（TiO/g-CN@LCNFs）。系统研究了木质素溶液的可纺性、LCNFs的化学结构和形态以及TiO/g-CN@LCNFs对罗丹明B（RhB）的催化降解性能。TiO/g-CN@LCNFs在紫外-可见光照射下对RhB的降解率达到92.76%，这接近或高于大多数已报道的基于碳纤维的光催化剂。光催化剂优异的降解性能可归因于TiO和g-CN的协同作用，这提高了电子和空穴的激发效率，并延长了电子-空穴对的寿命。我们设想我们的工作将为基于生物质衍生纤维材料的高效光催化剂的开发提供一些指导。

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通过催化剂协同作用提高木质素衍生碳纳米纤维的光催化性能。

Improved photocatalytic property of lignin-derived carbon nanofibers through catalyst synergy.

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