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Flexible infrared camouflage eutectic gallium-indium for thermoelectric energy harvesting

Zechang Wei, Min Seok Kim, Zhen Yu, Chenyang Cai, Mengjuan Zhou, Jiang Wang, Hong Lei, Haojie Lü, Yaoxin Zhang, Yu Fu
June 18, 2026
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Research Abstract & Technology Focus

Integrated infrared camouflage materials capable of energy harvesting and sensing hold great potential for enhancing operational efficiency in military settings. A key challenge, however, lies in achieving such multifunctionality without complex fabrication processes. In this study, we address this issue by introducing eutectic gallium‑indium (EGaIn) as a versatile material that combines infrared camouflage with thermoelectric sensing. EGaIn exhibits remarkable infrared camouflage performance over a broad temperature range. It suppresses its own thermal radiation by reflecting ambient infrared radiation, concealing its infrared signature for infrared camouflage. In addition to its infrared camouflage function, one of the most notable features of EGaIn is its ability to generate voltage from small temperature gradients. This thermoelectric capability enables self‑powered, real‑time monitoring of physiological states like body temperature and breathing patterns. Our work highlights the pathways toward military technologies that combine infrared camouflage with signal transmission capabilities. Eutectic gallium indium is proposed to address the challenge of integrating infrared camouflage with self-powered thermoelectric sensing, enabling simultaneous concealment of thermal signatures and real-time physiological monitoring without complex fabrication.
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What is the core focus of the research titled 'Flexible infrared camouflage eutectic gallium-indium for thermoelectric energy harvesting'?

This literature focuses on: Integrated infrared camouflage materials capable of energy harvesting and sensing hold great potential for enhancing operational efficiency in military settings. A key challenge, however, lies in achieving such multifunctionality without complex f...

What other academic literature is closely related to 'Flexible infrared camouflage eutectic gallium-indium for thermoelectric energy harvesting'?

Yes, highly correlated activity was mapped. An entry titled 'Multicolour stretchable perovskite electroluminescent devices for user-interactive displays' discusses this: AbstractWearable displays require mechanical deformability to conform to the skin, as well as long-term stability, multicolour emission and suffici...

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