多光谱图像
伪装
材料科学
导电体
超短脉冲
光电子学
动态范围
光学
宽带
掩蔽
光子学
调制(音乐)
计算机科学
遥感
高动态范围
纳米技术
电子工程
电极
作者
Shengliang Zhang,Xianjie Xia,Yiting Wang,Zekun Huang,Binbin Liu,Wenkun Fei,Jianmin Li,Sheng Cao,Bing Ding,Xiaogang Zhang
出处
期刊:ACS energy letters
[American Chemical Society]
日期:2026-03-17
卷期号:11 (4): 3443-3451
被引量:1
标识
DOI:10.1021/acsenergylett.6c00165
摘要
The rapid advancement of reconnaissance technologies has rendered conventional single-band and static camouflage technology ineffective, driving the urgent demand for multispectral dynamic camouflage technology capable of actively changing its spectral properties. Herein, we present a flexible multispectral dynamic modulator (FMDM) that achieves dynamic and compatible visible–infrared camouflage based on a silver-mesh multispectral transparent conductive electrode and reversible copper electrodeposition. The high electron conductivity of the working electrode, combined with the high ionic conductivity of quasi-solid gel electrolyte, enables the uniform, rapid, and reversible deposition/dissolution of copper nanoparticles. Consequently, the FMDM delivers broadband tunability from visible to mid-infrared with high optical modulation contrasts of 0.67 (0.7–2.5 μm), 0.68 (3–5 μm), and 0.82 (8–13 μm), while maintaining a relatively low visible reflectance consistently. Notably, the FMDM also demonstrates ultrafast response speed (2.4/2.7 s), wide operating temperature range (−40–60 °C), and long-term cycling stability. This work paves the way for next-generation multispectral dynamic camouflage technologies.
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