材料科学
聚二甲基硅氧烷
电极
氧化铟锡
电致变色
透射率
电致变色装置
薄板电阻
基质(水族馆)
复合材料
导电体
光电子学
电导率
光学透明度
纳米技术
薄膜
图层(电子)
化学
物理化学
地质学
海洋学
作者
Tingting Hao,Leipeng Zhang,Haoyu Ji,Qiyu Zhou,Ting Feng,Shanshan Song,Bo Wang,Dongqi Liu,Zichen Ren,Wenchao Liu,Yike Zhang,Jiawu Sun,Yao Li
出处
期刊:Polymers
[Multidisciplinary Digital Publishing Institute]
日期:2023-06-10
卷期号:15 (12): 2640-2640
被引量:14
标识
DOI:10.3390/polym15122640
摘要
The application of flexible indium tin oxide (ITO-free) electrochromic devices has steadily attracted widespread attention in wearable devices. Recently, silver nanowire/poly(dimethylsiloxane) (AgNW/PDMS)-based stretchable conductive films have raised great interest as ITO-free substrate for flexible electrochromic devices. However, it is still difficult to achieve high transparency with low resistance due to the weak binding force between AgNW and PDMS with low surface energy because of the possibility of detaching and sliding occurring at the interface. Herein, we propose a method to pattern the pre-cured PDMS (PT-PDMS) by stainless steel film as a template through constructed micron grooves and embedded structure, to prepare a stretchable AgNW/PT-PDMS electrode with high transparency and high conductivity. The stretchable AgNW/PT-PDMS electrode can be stretched (5000 cycles), twisted, and surface friction (3M tape for 500 cycles) without significant loss of conductivity (ΔR/R ≈ 16% and 27%). In addition, with the increase of stretch (stretching to 10-80%), the AgNW/PT-PDMS electrode transmittance increased, and the conductivity increased at first and then decreased. It is possible that the AgNWs in the micron grooves are spread during PDMS stretching, resulting in a larger spreading area and higher transmittance of the AgNWs film; at the same time, the nanowires between the grooves come into contact, thus increasing conductivity. An electrochromic electrode constructed with the stretchable AgNW/PT-PDMS exhibited excellent electrochromic behavior (transmittance contrast from ~61% to ~57%) even after 10,000 bending cycles or 500 stretching cycles, indicating high stability and mechanical robustness. Notably, this method of preparing transparent stretch electrodes based on patterned PDMS provides a promising solution for developing electronic devices with unique structures and high performance.
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