Zebra-inspired stretchable, biodegradable radiation modulator for all-day sustainable energy harvesters

Recent advances in passive radiative cooling systems describe a variety of strategies to enhance cooling efficiency, while the integration of such technology with a bioinspired design using biodegradable materials can offer a research opportunity to generate energy in a sustainable manner, favorable...

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Veröffentlicht in:Science advances 2023-02, Vol.9 (5), p.eadf5883-eadf5883
Hauptverfasser: Han, Won Bae, Heo, Se-Yeon, Kim, Donghak, Yang, Seung Min, Ko, Gwan-Jin, Lee, Gil Ju, Kim, Dong-Je, Rajaram, Kaveti, Lee, Joong Hoon, Shin, Jeong-Woong, Jang, Tae-Min, Han, Sungkeun, Kang, Heeseok, Lim, Jun Hyeon, Kim, Do Hyeon, Kim, Soo Hyun, Song, Young Min, Hwang, Suk-Won
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Sprache:eng
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Zusammenfassung:Recent advances in passive radiative cooling systems describe a variety of strategies to enhance cooling efficiency, while the integration of such technology with a bioinspired design using biodegradable materials can offer a research opportunity to generate energy in a sustainable manner, favorable for the temperature/climate system of the planet. Here, we introduce stretchable and ecoresorbable radiative cooling/heating systems engineered with zebra stripe-like patterns that enable the generation of a large in-plane temperature gradient for thermoelectric generation. A comprehensive study of materials with theoretical evaluations validates the ability to accomplish the target performances even under external mechanical strains, while all systems eventually disappear under physiological conditions. Use of the zebra print for selective radiative heating demonstrates an unexpected level of temperature difference compared to use of radiative cooling emitters alone, which enables producing energy through resorbable silicon-based thermoelectric devices. The overall result suggests the potential of scalable, ecofriendly renewable energy systems.
ISSN:2375-2548
2375-2548
DOI:10.1126/sciadv.adf5883