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利用植物蛋白-木质素电纺纤维简便制备用于超级电容器的自立式分级多孔氮掺杂碳纤维

Facile Preparation of Self-Standing Hierarchical Porous Nitrogen-Doped Carbon Fibers for Supercapacitors from Plant Protein-Lignin Electrospun Fibers.

作者信息

Yang Jingqi, Wang Yixiang, Luo Jingli, Chen Lingyun

机构信息

Department of Agricultural, Food and Nutritional Science, University of Alberta, T6G 2P5 Edmonton, Canada.

Department of Food Science and Agricultural Chemistry, Macdonald Campus, McGill University, H9X 3V9 Montreal, Québec, Canada.

出版信息

ACS Omega. 2018 Apr 27;3(4):4647-4656. doi: 10.1021/acsomega.7b01876. eCollection 2018 Apr 30.

DOI:10.1021/acsomega.7b01876
PMID:31458685
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6641454/
Abstract

This research aims to develop self-standing nitrogen-doped carbon fiber networks from plant protein-lignin electrospun fibrous mats for supercapacitors. The challenge in preparing carbon fiber from protein is to maintain a fibrous structure during carbonization process. Thus, lignin was incorporated with protein. At protein-to-lignin ratio of 50:50 to 20:80, the electrospun fibers maintained their structure after carbonization and formed self-standing carbon fiber mats. Stacked graphene layer structure was developed in the carbon fibers at a relatively low carbonization temperature (<1000 °C) without the use of catalysts, which might be derived from both lignin and protein. Graphene layer structure conferred the carbon fibers with superior conductivity. The optimized carbon fiber networks possessed excellent capacitance performance in 6 M KOH of 410 F/g at 1 A/g and good cyclic stability. Such good electrochemical properties were due to the well-engineered characteristics of the materials, including a hierarchical porous texture, heteroatoms (nitrogen and oxygen), and the stacked graphene layer structure. This research not only has provided a convenient way to develop carbon fibers from plant protein-lignin for N-doped supercapacitor electrodes, but also opportunity to add value to plant proteins and lignin as by-products of agricultural industry processing.

摘要

本研究旨在利用植物蛋白 - 木质素电纺纤维毡开发用于超级电容器的自立式氮掺杂碳纤维网络。从蛋白质制备碳纤维的挑战在于在碳化过程中保持纤维结构。因此,将木质素与蛋白质结合。在蛋白质与木质素比例为50:50至20:80时,电纺纤维在碳化后保持其结构并形成自立式碳纤维毡。在相对较低的碳化温度(<1000°C)下,无需使用催化剂,碳纤维中形成了堆叠的石墨烯层结构,这可能源自木质素和蛋白质。石墨烯层结构赋予碳纤维优异的导电性。优化后的碳纤维网络在6 M KOH中,在1 A/g电流密度下具有410 F/g的优异电容性能和良好的循环稳定性。如此良好的电化学性能归因于材料精心设计的特性,包括分级多孔结构、杂原子(氮和氧)以及堆叠的石墨烯层结构。本研究不仅提供了一种从植物蛋白 - 木质素开发用于氮掺杂超级电容器电极的碳纤维的便捷方法,还为作为农业工业加工副产品的植物蛋白和木质素增值提供了机会。

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