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231226s2023 xx |||||o 00| ||eng c |
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|a 10.1002/adma.202209897
|2 doi
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|a pubmed25n1174.xml
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|a (DE-627)NLM352304715
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|a (NLM)36720106
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|a DE-627
|b ger
|c DE-627
|e rakwb
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|a eng
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|a Yuan, Hao
|e verfasserin
|4 aut
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|a Scalable Fabrication of Dual-Function Fabric for Zero-Energy Thermal Environmental Management through Multiband, Synergistic, and Asymmetric Optical Modulations
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|c 2023
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|a Text
|b txt
|2 rdacontent
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|a ƒaComputermedien
|b c
|2 rdamedia
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|a ƒa Online-Ressource
|b cr
|2 rdacarrier
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|a Date Completed 07.05.2023
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|a Date Revised 07.05.2023
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|a published: Print-Electronic
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|a Citation Status PubMed-not-MEDLINE
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|a © 2023 Wiley-VCH GmbH.
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|a Solar heating and radiative cooling techniques have been proposed for passive space thermal management to reduce the global energy burden. However, the currently used single-function envelope/coating materials can only achieve static temperature regulation, presenting limited energy savings and poor adaption to dynamic environments. In this study, a sandwich-structured fabric, composed of vertical graphene, graphene glass fiber fabric, and polyacrylonitrile nanofibers is developed, with heating and cooling functions integrated through multiband, synergistic, (solar spectrum and mid-infrared ranges) and asymmetric optical modulations on two sides of the fabric. The dual-function fabric demonstrates high adaption to the dynamic environment and superior performance in a zero-energy-input temperature regulation. Furthermore, it demonstrates ≈15.5 and ≈31.1 MJ m-2 y-1 higher annual energy savings compared to those of their cooling-only and heating-only counterparts, corresponding to ≈173.7 MT reduction in the global CO2 emission. The fabric exhibits high scalability for batch manufacturing with commercially abundant raw materials and facile technologies, providing a favorable guarantee of its mass production and use
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|a Journal Article
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|a optical modulations
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|a radiative cooling
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|a solar heating
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| 650 |
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|a thermal environmental management
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1 |
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|a Liu, Ruojuan
|e verfasserin
|4 aut
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1 |
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|a Cheng, Shuting
|e verfasserin
|4 aut
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| 700 |
1 |
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|a Li, Wenjuan
|e verfasserin
|4 aut
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1 |
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|a Ma, Mingyang
|e verfasserin
|4 aut
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| 700 |
1 |
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|a Huang, Kewen
|e verfasserin
|4 aut
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| 700 |
1 |
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|a Li, Junliang
|e verfasserin
|4 aut
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| 700 |
1 |
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|a Cheng, Yi
|e verfasserin
|4 aut
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| 700 |
1 |
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|a Wang, Kun
|e verfasserin
|4 aut
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| 700 |
1 |
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|a Yang, Yuyao
|e verfasserin
|4 aut
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| 700 |
1 |
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|a Liang, Fushun
|e verfasserin
|4 aut
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| 700 |
1 |
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|a Tu, Ce
|e verfasserin
|4 aut
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| 700 |
1 |
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|a Wang, Xiaobai
|e verfasserin
|4 aut
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| 700 |
1 |
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|a Qi, Yue
|e verfasserin
|4 aut
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| 700 |
1 |
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|a Liu, Zhongfan
|e verfasserin
|4 aut
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| 773 |
0 |
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|i Enthalten in
|t Advanced materials (Deerfield Beach, Fla.)
|d 1998
|g 35(2023), 18 vom: 01. Mai, Seite e2209897
|w (DE-627)NLM098206397
|x 1521-4095
|7 nnas
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| 773 |
1 |
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|g volume:35
|g year:2023
|g number:18
|g day:01
|g month:05
|g pages:e2209897
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|u http://dx.doi.org/10.1002/adma.202209897
|3 Volltext
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