Biomimetic Difunctional Carbon-Nanotube-Based Aerogels for Efficient Steam Generation

Solar steam generation is an emerging research field to approach the challenge of water shortages all around the world. Abundant light absorber materials have been developed to improve the broadband absorption of sunlight in the past few years, but the thermal insulating layers that often make a sig...

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Veröffentlicht in:	ACS applied nano materials 2020-05, Vol.3 (5), p.4690-4698
Hauptverfasser:	Zhan, Hui-Juan, Chen, Jia-Fu, Zhao, Hao-Yu, Jiao, Long, Liu, Jian-Wei, Yu, Shu-Hong
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creator	Zhan, Hui-Juan Chen, Jia-Fu Zhao, Hao-Yu Jiao, Long Liu, Jian-Wei Yu, Shu-Hong
description	Solar steam generation is an emerging research field to approach the challenge of water shortages all around the world. Abundant light absorber materials have been developed to improve the broadband absorption of sunlight in the past few years, but the thermal insulating layers that often make a significant improvement in the photothermal conversion performance of the device have rarely been researched. A material that has both excellent heat insulation property and high light absorption is also uncommon. Bioinspired by the hollow hair of polar bears, here we demonstrate difunctional carbon-nanotube-based aerogels (DCTAs), which not only can be used as the thermal insulating layer that helps to resist heat loss from the surface to bulk water but also serve as the absorber layer. The hollow carbon nanofiber network structure can effectively resist thermal transport so that the carbon-nanotube-based aerogel shows great thermal insulating properties. Besides, the aerogel can self-float on the surface of water because of its lightweight and hydrophobic nature. By further compositing with Au nanoparticles, the broadband absorption of aerogel is up to 98% in the wavelength range of 250–2000 nm. This rational design endows the DCTAs with a good solar thermal conversion performance.
doi_str_mv	10.1021/acsanm.0c00683
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Abundant light absorber materials have been developed to improve the broadband absorption of sunlight in the past few years, but the thermal insulating layers that often make a significant improvement in the photothermal conversion performance of the device have rarely been researched. A material that has both excellent heat insulation property and high light absorption is also uncommon. Bioinspired by the hollow hair of polar bears, here we demonstrate difunctional carbon-nanotube-based aerogels (DCTAs), which not only can be used as the thermal insulating layer that helps to resist heat loss from the surface to bulk water but also serve as the absorber layer. The hollow carbon nanofiber network structure can effectively resist thermal transport so that the carbon-nanotube-based aerogel shows great thermal insulating properties. Besides, the aerogel can self-float on the surface of water because of its lightweight and hydrophobic nature. 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