A Novel Triple Crosslinking Strategy on Carbon Nanofiber Membranes as Flexible Electrodes for Lithium-Ion Batteries

In order to solve the problem of low electrical conductivity of carbon nanofiber membranes, a novel triple crosslinking strategy, including pre-rolling, solvent and chemical imidization crosslinking, was proposed to prepare carbon nanofiber membranes with a chemical crosslinking structure (CNMs-CC)...

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Autores principales: Xu, Hang, Hou, Xinran, Gong, Man, Yang, Changshu, Luo, Jinpeng, Chen, Yuluo, Ma, Lei, Zhou, Lang, Yin, Chuanqiang, Li, Xiaomin
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9460440/
https://www.ncbi.nlm.nih.gov/pubmed/36080603
http://dx.doi.org/10.3390/polym14173528
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author Xu, Hang
Hou, Xinran
Gong, Man
Yang, Changshu
Luo, Jinpeng
Chen, Yuluo
Ma, Lei
Zhou, Lang
Yin, Chuanqiang
Li, Xiaomin
author_facet Xu, Hang
Hou, Xinran
Gong, Man
Yang, Changshu
Luo, Jinpeng
Chen, Yuluo
Ma, Lei
Zhou, Lang
Yin, Chuanqiang
Li, Xiaomin
author_sort Xu, Hang
collection PubMed
description In order to solve the problem of low electrical conductivity of carbon nanofiber membranes, a novel triple crosslinking strategy, including pre-rolling, solvent and chemical imidization crosslinking, was proposed to prepare carbon nanofiber membranes with a chemical crosslinking structure (CNMs-CC) derived from electrospinning polyimide nanofiber membranes. The physical-chemical characteristics of CNMs-CC as freestanding anodes for lithium-ion batteries were investigated in detail, along with carbon nanofiber membranes without a crosslinking structure (CNMs) and carbon nanofiber membranes with a physical crosslinking structure (CNMs-PC) as references. Further investigation demonstrates that CNMs-CC exhibits excellent rate performance and long cycle stability, compared with CNMs and CNMs-PC. At 50 mA g(−1), CNMs-CC delivers a reversible specific capacity of 495 mAh g(−)(1). In particular, the specific capacity of CNMs-CC is still as high as 290.87 mAh g(−1) and maintains 201.38 mAh g(−1) after 1000 cycles at a high current density of 1 A g(−1). The excellent electrochemical performance of the CNMs-CC is attributed to the unique crosslinking structure derived from the novel triple crosslinking strategy, which imparts fast electron transfer and ion diffusion kinetics, as well as a stable structure that withstands repeated impacts of ions during charging and discharging process. Therefore, CNMs-CC shows great potential to be the freestanding electrodes applied in the field of flexible lithium-ion batteries and supercapacitors owing to the optimized structure strategy and improved properties.
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spelling pubmed-94604402022-09-10 A Novel Triple Crosslinking Strategy on Carbon Nanofiber Membranes as Flexible Electrodes for Lithium-Ion Batteries Xu, Hang Hou, Xinran Gong, Man Yang, Changshu Luo, Jinpeng Chen, Yuluo Ma, Lei Zhou, Lang Yin, Chuanqiang Li, Xiaomin Polymers (Basel) Article In order to solve the problem of low electrical conductivity of carbon nanofiber membranes, a novel triple crosslinking strategy, including pre-rolling, solvent and chemical imidization crosslinking, was proposed to prepare carbon nanofiber membranes with a chemical crosslinking structure (CNMs-CC) derived from electrospinning polyimide nanofiber membranes. The physical-chemical characteristics of CNMs-CC as freestanding anodes for lithium-ion batteries were investigated in detail, along with carbon nanofiber membranes without a crosslinking structure (CNMs) and carbon nanofiber membranes with a physical crosslinking structure (CNMs-PC) as references. Further investigation demonstrates that CNMs-CC exhibits excellent rate performance and long cycle stability, compared with CNMs and CNMs-PC. At 50 mA g(−1), CNMs-CC delivers a reversible specific capacity of 495 mAh g(−)(1). In particular, the specific capacity of CNMs-CC is still as high as 290.87 mAh g(−1) and maintains 201.38 mAh g(−1) after 1000 cycles at a high current density of 1 A g(−1). The excellent electrochemical performance of the CNMs-CC is attributed to the unique crosslinking structure derived from the novel triple crosslinking strategy, which imparts fast electron transfer and ion diffusion kinetics, as well as a stable structure that withstands repeated impacts of ions during charging and discharging process. Therefore, CNMs-CC shows great potential to be the freestanding electrodes applied in the field of flexible lithium-ion batteries and supercapacitors owing to the optimized structure strategy and improved properties. MDPI 2022-08-28 /pmc/articles/PMC9460440/ /pubmed/36080603 http://dx.doi.org/10.3390/polym14173528 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Xu, Hang
Hou, Xinran
Gong, Man
Yang, Changshu
Luo, Jinpeng
Chen, Yuluo
Ma, Lei
Zhou, Lang
Yin, Chuanqiang
Li, Xiaomin
A Novel Triple Crosslinking Strategy on Carbon Nanofiber Membranes as Flexible Electrodes for Lithium-Ion Batteries
title A Novel Triple Crosslinking Strategy on Carbon Nanofiber Membranes as Flexible Electrodes for Lithium-Ion Batteries
title_full A Novel Triple Crosslinking Strategy on Carbon Nanofiber Membranes as Flexible Electrodes for Lithium-Ion Batteries
title_fullStr A Novel Triple Crosslinking Strategy on Carbon Nanofiber Membranes as Flexible Electrodes for Lithium-Ion Batteries
title_full_unstemmed A Novel Triple Crosslinking Strategy on Carbon Nanofiber Membranes as Flexible Electrodes for Lithium-Ion Batteries
title_short A Novel Triple Crosslinking Strategy on Carbon Nanofiber Membranes as Flexible Electrodes for Lithium-Ion Batteries
title_sort novel triple crosslinking strategy on carbon nanofiber membranes as flexible electrodes for lithium-ion batteries
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9460440/
https://www.ncbi.nlm.nih.gov/pubmed/36080603
http://dx.doi.org/10.3390/polym14173528
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