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高韧性高导电PTFE基干法自支撑膜技术研究

高桂红李珅珅张薇梁圣杰韩甜巫湘坤

储能科学与技术2025，Vol.14Issue(5)：1850-1857,8.

储能科学与技术2025，Vol.14Issue(5)：1850-1857,8.DOI:10.19799/j.cnki.2095-4239.2024.1046

高韧性高导电PTFE基干法自支撑膜技术研究

Research on self-supporting membrane technology of high toughness and high conductivity PTFE based dry method

高桂红 ¹李珅珅 ²张薇 ³梁圣杰 ³韩甜 ³巫湘坤⁴

作者信息

1. 郑州中科新兴产业技术研究院,河南省储能材料与过程重点实验室,河南郑州 450003||郑州中科新兴产业技术研究院,龙子湖新能源实验室,河南郑州 450003
2. 郑州中科新兴产业技术研究院,龙子湖新能源实验室,河南郑州 450003
3. 郑州中科新兴产业技术研究院,河南省储能材料与过程重点实验室,河南郑州 450003
4. 郑州中科新兴产业技术研究院,龙子湖新能源实验室,河南郑州 450003||中国科学院过程工程研究所,离子液体清洁过程北京重点实验室,北京 100190
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摘要

Abstract

Polytetrafluoroethylene fibrosability was utilized to create a dry,self-supporting film by prefibrosing the raw material into a uniform mixture,followed by hot roller pressing.The resulting dry diaphragm achieved a thickness of 120-200 μm and a surface weight capacity of 36-60 mg/cm2,2-4 times higher than current commercial wet electrode surface loads.Scanning electron microscopy(SEM)analysis of the membrane's surface and cross-section showed that the original granular polytetrafluoroethylene binder was fully fibrosed during mixing and hot pressing.The nanofibrous binder,formed during the preparation process,was evenly distributed across the electrode film,with polytetrafluoroethylene fibers and the conductive agent surrounding active particles,creating an abundant"3D"network structure.The diaphragm displayed excellent lyophilic properties,with measured optical contact angles ranging from 97° and 112°.The membrane electrode exhibited strong mechanical properties,with a maximum tensile force of 2.64 MPa,and an elongation is of 34.64%,ensuring the film's integrity during the winding process.The electronic resistivity of the diaphragm is as low as 13.58 mΩ·cm.For the 200 μm super-thick electrode,the first charge-discharge efficiency reached 87.51%,with a specific discharge capacity of 209.60 mAh/g,and a maximum discharge gram capacity of 160mAh/g at 1C ratio.This study demonstrates the feasibility of polytetrafluoroethylene fibrosis for advancing low-cost,large-scale electrode preparation technology,and provides a reliable solution for the efficient use of energy.

关键词

干法技术/自支撑膜/聚四氟乙烯/高韧性/高导电

Key words

dry technique/self-supporting film/polytetrafluoroethylene/high toughness/high conductivity

分类

信息技术与安全科学

引用本文复制引用

高桂红,李珅珅,张薇,梁圣杰,韩甜,巫湘坤..高韧性高导电PTFE基干法自支撑膜技术研究[J].储能科学与技术,2025,14(5):1850-1857,8.

基金项目

河南省科技攻关(242102241044) （242102241044）

河南省重点研发计划(221111240100) （221111240100）

河南省重点研发专项(241111241500). （241111241500）

储能科学与技术

OA北大核心

ISSN：2095-4239

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