材料科学
二氧化钛
潜热
热的
热致变色
恒温器
纤维素
光电子学
化学工程
辐射传输
离子
硝酸锂
电致变色
复合材料
红外线的
生物界面
锂(药物)
热辐射
纳米颗粒
保温
电致变色装置
锂离子电池
光催化
氧化钛
焦耳加热
作者
Se‐Yeon Heo,Hyung Rae Kim,Yoonsoo Shin,Hyun Su Lee,Hyunkyu Kwak,Do Hyeon Kim,Dong Hyun Seo,Joo Hwan Ko,Hyo Eun Jeong,Sehui Chang,Min Seok Kim,Longnan Li,Jyotirmoy Mandal,Wei Li,Dae‐Hyeong Kim,Young Min Song
标识
DOI:10.1002/adma.202516537
摘要
Plants such as Populus alba feature photoprotective foliage that dynamically modulates optical properties to dissipate excessive heat under high temperatures, while condensation-induced latent heating preserves warmth under cold conditions-enabling tolerance to fluctuating thermal and hydric environments. Inspired by this natural strategy, a hydrogel-based thermostat is presented that balances latent and radiative heat fluxes. The system integrates lithium ions and hydroxypropyl cellulose into a polyacrylamide matrix, providing dynamic solar reflectance, high infrared emissivity, and reversible water sorption-desorption capabilities. Thermochromic and hygroscopic responses are tunable via adjustments in hydroxypropyl cellulose and lithium ions concentrations, allowing environment-specific adaptation. Mechanical robustness is enhanced by incorporating titanium dioxide nanoparticles and applying surface treatments. Experiments and simulations demonstrate both sub-ambient cooling and above-ambient heating across diverse conditions, establishing the system as an all-season thermal regulation platform.
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