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Versatile and Comfortable Janus Fabrics for Switchable Personal Thermal Management and Electromagnetic Interference Shielding

Existing personal thermal regulating fabrics fall short of meeting the demands for sustainable and protective outdoor temperature management. Here, a versatile and comfortable Janus fabric has been developed by embedding boron nitride nanosheets within a porous polyurethane matrix (BNNS@TPU) and int...

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Published in:	Advanced fiber materials (Online) 2024-06, Vol.6 (3), p.911-924
Main Authors:	Feng, Mingxin, Feng, Shuangjiang, Yu, Tianrui, Zhu, Shengyin, Cai, Haoran, He, Xu, Liu, Yanmei, He, Man, Bu, Xiaohai, Huang, Jun, Zhou, Yuming
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Language:	English
Subjects:	Abrasion resistance Absorptivity Boron nitride Chemistry and Materials Science Cold Conduction losses Contact angle Cooling Cotton Efficiency Electromagnetic interference Electromagnetic radiation Electromagnetic shielding Fabrics Fire resistance Fourier transforms Heating Interfacial bonding Materials Engineering Materials Science MXenes Nanoscale Science and Technology Polymer Sciences Polyurethane resins Pore size distribution Porosity Porous media Radiation Radiation tolerance Refractivity Renewable and Green Energy Research Article Solar radiation shielding Textile Engineering Thermal management Urethane thermoplastic elastomers
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container_title	Advanced fiber materials (Online)
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creator	Feng, Mingxin Feng, Shuangjiang Yu, Tianrui Zhu, Shengyin Cai, Haoran He, Xu Liu, Yanmei He, Man Bu, Xiaohai Huang, Jun Zhou, Yuming
description	Existing personal thermal regulating fabrics fall short of meeting the demands for sustainable and protective outdoor temperature management. Here, a versatile and comfortable Janus fabric has been developed by embedding boron nitride nanosheets within a porous polyurethane matrix (BNNS@TPU) and introducing Ti 3 C 2 T x MXene into another layer of TPU pores (MXene/TPU). The well-distributed BNNS in porous TPU matrix enhances refractive index difference, increases porosity and optimizes pore size distribution, resulting in an excellent solar reflectivity ( R = 94.22%), while the distinct distribution of MXene in porous TPU effectively improves solar absorptivity ( α = 93.57%) and enhances the conduction loss of electromagnetic waves due to multiple scattering and reflection effects. With a simple flip, Janus fabric can switch between sub-ambient cooling of ~ 7.2 °C and super-ambient heating of ~ 46.0 °C to adapt to changing weather and seasonal conditions. The fabric achieves an electromagnetic interference shielding efficiency of 36 dB, protecting the human body from electromagnetic radiation, attributed to the hierarchical distribution of highly conductive MXene. Furthermore, Janus fabric offers excellent comfort, abrasion resistance, washability, and flame retardancy for practical wear. This study presents an effective strategy for developing personal thermal regulating fabrics with adaptability to environmental changes and resistance to electromagnetic radiation. Graphical abstract
doi_str_mv	10.1007/s42765-024-00393-w
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Here, a versatile and comfortable Janus fabric has been developed by embedding boron nitride nanosheets within a porous polyurethane matrix (BNNS@TPU) and introducing Ti 3 C 2 T x MXene into another layer of TPU pores (MXene/TPU). The well-distributed BNNS in porous TPU matrix enhances refractive index difference, increases porosity and optimizes pore size distribution, resulting in an excellent solar reflectivity ( R = 94.22%), while the distinct distribution of MXene in porous TPU effectively improves solar absorptivity ( α = 93.57%) and enhances the conduction loss of electromagnetic waves due to multiple scattering and reflection effects. With a simple flip, Janus fabric can switch between sub-ambient cooling of ~ 7.2 °C and super-ambient heating of ~ 46.0 °C to adapt to changing weather and seasonal conditions. The fabric achieves an electromagnetic interference shielding efficiency of 36 dB, protecting the human body from electromagnetic radiation, attributed to the hierarchical distribution of highly conductive MXene. Furthermore, Janus fabric offers excellent comfort, abrasion resistance, washability, and flame retardancy for practical wear. This study presents an effective strategy for developing personal thermal regulating fabrics with adaptability to environmental changes and resistance to electromagnetic radiation. 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With a simple flip, Janus fabric can switch between sub-ambient cooling of ~ 7.2 °C and super-ambient heating of ~ 46.0 °C to adapt to changing weather and seasonal conditions. The fabric achieves an electromagnetic interference shielding efficiency of 36 dB, protecting the human body from electromagnetic radiation, attributed to the hierarchical distribution of highly conductive MXene. Furthermore, Janus fabric offers excellent comfort, abrasion resistance, washability, and flame retardancy for practical wear. This study presents an effective strategy for developing personal thermal regulating fabrics with adaptability to environmental changes and resistance to electromagnetic radiation. 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subjects	Abrasion resistance Absorptivity Boron nitride Chemistry and Materials Science Cold Conduction losses Contact angle Cooling Cotton Efficiency Electromagnetic interference Electromagnetic radiation Electromagnetic shielding Fabrics Fire resistance Fourier transforms Heating Interfacial bonding Materials Engineering Materials Science MXenes Nanoscale Science and Technology Polymer Sciences Polyurethane resins Pore size distribution Porosity Porous media Radiation Radiation tolerance Refractivity Renewable and Green Energy Research Article Solar radiation shielding Textile Engineering Thermal management Urethane thermoplastic elastomers
title	Versatile and Comfortable Janus Fabrics for Switchable Personal Thermal Management and Electromagnetic Interference Shielding
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