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基于CNT薄膜的红外发射率电致调控器件的循环稳定性研究

扈心舒王晗曹志林王长昊姜前蕾赵维王如志

首都师范大学学报（自然科学版）2025，Vol.46Issue(4)：56-63,8.

首都师范大学学报（自然科学版）2025，Vol.46Issue(4)：56-63,8.DOI:10.19789/j.1004-9398.2025.04.008

基于CNT薄膜的红外发射率电致调控器件的循环稳定性研究

Research on the cyclic stability of infrared emissivity electroinduction control devices based on CNT films

扈心舒 ¹王晗 ¹曹志林 ¹王长昊 ¹姜前蕾 ¹赵维 ²王如志¹

作者信息

1. 北京工业大学材料科学与工程学院,新能源材料与技术研究所,新型功能材料教育部重点实验室,北京 100124
2. 国家电投集团氢能科技发展有限公司关键材料事业部,北京 100076
折叠

摘要

Abstract

Carbon nanotube(CNT)thin films have been found to possess excellent infrared surface emissivity electromodulation functions,exhibiting great potential in fields such as infrared camouflage and intelligent thermal control of spacecraft.The cycling stability of electrochromic devices based on CNT thin films is crucial for device applications,yet the underlying physical mechanisms affecting their stability have received limited attention.In this study,a sandwich structure electroinduced infrared emissivity dynamic control device was constructed using multi-walled CNT thin films,porous membranes,and ionic liquids.The surface emissivity control range reached an exceptional dynamic emissivity control performance of 0.60,and the fastest control response speed achieved 0.20 seconds.Further research focused on the cyclic stability of the device and its physical roots.The research revealed that the ordered structure of CNT films was severely damaged after electromodulation exceeded 200 cycles,leading to the loss of infrared emissivity modulation performance and eventual complete failure.The damage to the ordered CNT structure may originate from the impact stress of ionic liquids following electric field application,causing gradual disordering and agglomeration of the CNT film,resulting in slowed response speed and ultimate failure of infrared emission dynamic control.Based on the Coffin-Manson reliability equation,a formula for predicting cyclic stability is proposed and found to be consistent with experimental results.The research results indicate that an ordered porous structure facilitating conductive ion transport and storage is critical for achieving excellent electroinduced infrared emissivity.This research provides reference ideas for high-performance and highly stable electro-infrared emissivity control device design and material selection,as well as feasible methods for predicting lifespan.

关键词

红外发射率/动态调控/碳纳米管/离子液体/循环稳定性/寿命预测模型

Key words

infrared emissivity/dynamic regulation/carbon nanotube/ionic liquid/cycle stability/life prediction model

分类

信息技术与安全科学

引用本文复制引用

扈心舒,王晗,曹志林,王长昊,姜前蕾,赵维,王如志..基于CNT薄膜的红外发射率电致调控器件的循环稳定性研究[J].首都师范大学学报（自然科学版）,2025,46(4):56-63,8.

基金项目

国家重点研发计划项目(2021YFB3500403) （2021YFB3500403）

首都师范大学学报（自然科学版）

ISSN：1004-9398

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