Spray coating of a perfect absorber based on carbon nanotube multiscale composites

We report the design and simple spray coating fabrication process of a perfect absorber based on carbon nanotubes (CNTs) and carbon black particles with omnidirectional high absorption efficiency beyond 99.9% over the broad wavelength range from 400 nm to 20 μm. The carbon black particles are introd...

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Veröffentlicht in:	Carbon (New York) 2021-06, Vol.178, p.616-624
Hauptverfasser:	Jin, Yuanhao, Zhang, Tianfu, Zhao, Jie, Zhao, Yuxin, Liu, Chang, Song, Jian, Hao, Xiaopeng, Wang, Jiaping, Jiang, Kaili, Fan, Shoushan, Li, Qunqing
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Sprache:	eng
Schlagworte:	Absorbers Carbon Carbon black Carbon nanotube Carbon nanotubes Connectors Electromagnetic absorption Industrial applications Morphology Multiscale composite Nanomaterials Nanotubes Optical properties Perfect absorber Protective coatings Solar heating Spray coating Surface chemistry
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creator	Jin, Yuanhao Zhang, Tianfu Zhao, Jie Zhao, Yuxin Liu, Chang Song, Jian Hao, Xiaopeng Wang, Jiaping Jiang, Kaili Fan, Shoushan Li, Qunqing
description	We report the design and simple spray coating fabrication process of a perfect absorber based on carbon nanotubes (CNTs) and carbon black particles with omnidirectional high absorption efficiency beyond 99.9% over the broad wavelength range from 400 nm to 20 μm. The carbon black particles are introduced into the CNT solution to form multi-scale all-carbon-based nanomaterials, effectively modifying the morphology of the sprayed layer to improve the light absorption. The promising absorption characteristics of the CNT–carbon black layer are attributed to not only the intrinsic optical properties of the carbon nanomaterials but also the unique surface nanostructures that efficiently trap light. In addition to serving as absorbers in the coating layer, the CNTs, more importantly, act as connectors between carbon black particles for absorber preparation at a large scale, which is the key to modifying the surface morphology. The all-carbon-based coating layer is also shown to be effective for solar thermal harvesting and self-cleaning function. The developed mixing method for CNTs and carbon black particles in solutions opens a new path for the realization of multi-functional sprayed layers based on CNTs and advances the technology of CNT coatings for scale-up to industry applications. [Display omitted]
doi_str_mv	10.1016/j.carbon.2021.03.019
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The carbon black particles are introduced into the CNT solution to form multi-scale all-carbon-based nanomaterials, effectively modifying the morphology of the sprayed layer to improve the light absorption. The promising absorption characteristics of the CNT–carbon black layer are attributed to not only the intrinsic optical properties of the carbon nanomaterials but also the unique surface nanostructures that efficiently trap light. In addition to serving as absorbers in the coating layer, the CNTs, more importantly, act as connectors between carbon black particles for absorber preparation at a large scale, which is the key to modifying the surface morphology. The all-carbon-based coating layer is also shown to be effective for solar thermal harvesting and self-cleaning function. The developed mixing method for CNTs and carbon black particles in solutions opens a new path for the realization of multi-functional sprayed layers based on CNTs and advances the technology of CNT coatings for scale-up to industry applications. 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The carbon black particles are introduced into the CNT solution to form multi-scale all-carbon-based nanomaterials, effectively modifying the morphology of the sprayed layer to improve the light absorption. The promising absorption characteristics of the CNT–carbon black layer are attributed to not only the intrinsic optical properties of the carbon nanomaterials but also the unique surface nanostructures that efficiently trap light. In addition to serving as absorbers in the coating layer, the CNTs, more importantly, act as connectors between carbon black particles for absorber preparation at a large scale, which is the key to modifying the surface morphology. The all-carbon-based coating layer is also shown to be effective for solar thermal harvesting and self-cleaning function. The developed mixing method for CNTs and carbon black particles in solutions opens a new path for the realization of multi-functional sprayed layers based on CNTs and advances the technology of CNT coatings for scale-up to industry applications. 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The carbon black particles are introduced into the CNT solution to form multi-scale all-carbon-based nanomaterials, effectively modifying the morphology of the sprayed layer to improve the light absorption. The promising absorption characteristics of the CNT–carbon black layer are attributed to not only the intrinsic optical properties of the carbon nanomaterials but also the unique surface nanostructures that efficiently trap light. In addition to serving as absorbers in the coating layer, the CNTs, more importantly, act as connectors between carbon black particles for absorber preparation at a large scale, which is the key to modifying the surface morphology. The all-carbon-based coating layer is also shown to be effective for solar thermal harvesting and self-cleaning function. 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source	ScienceDirect Journals (5 years ago - present)
subjects	Absorbers Carbon Carbon black Carbon nanotube Carbon nanotubes Connectors Electromagnetic absorption Industrial applications Morphology Multiscale composite Nanomaterials Nanotubes Optical properties Perfect absorber Protective coatings Solar heating Spray coating Surface chemistry
title	Spray coating of a perfect absorber based on carbon nanotube multiscale composites
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