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An Eco‐Friendly and Multifunctional Textile Integrating Radiative Heating and Cooling for Large‐Temperature‐Variation Personal Thermal Management

Jiankang Zhang, Huilin Dong, Yian Yu, Shiqi Yin, Mengyao Cao, Cuihuan Li, Xiaoying Shen, Junying Li, Yanglei Xu, Sheng Chen, Feng Xu

2025Advanced Functional Materials28 citationsDOIOpen Access PDF

Abstract

Abstract Radiative heating or cooling textiles offer a sustainable means for personal thermal management (PTM). However, textiles that can realize efficient PTM under both large indoor and outdoor temperature variations are still lacking. Herein, guided by a heat transfer model, an eco‐ and user‐friendly bilayer textile (i‐textile) integrating radiative heating and cooling is developed. The i‐textile is composed of an MXene layer and a cellulose acetate (CA) layer with asymmetrical spectral characteristics. This textile provides heating when the MXene layer faces outward and cooling by wearing the textile inside out when the CA layer faces outward, thus enabling a decreased skin temperature variation range (7.3 and 6.8 °C lower than those when wearing cotton textiles) under large temperature variations indoors (12.6 °C) and outdoors (19.6 °C), respectively. Moreover, the i‐textile presents excellent wearability (breathability and washing resistance), recyclability, and biodegradability and can save≈30% of the building heating and cooling energy if widely deployed in China.

Topics & Concepts

TextileMaterials scienceEnvironmentally friendlyLayer (electronics)ThermalThermal comfortRadiative transferComposite materialOpticsMeteorologyEcologyPhysicsBiologyThermal Radiation and Cooling TechnologiesUrban Heat Island MitigationThermal properties of materials
An Eco‐Friendly and Multifunctional Textile Integrating Radiative Heating and Cooling for Large‐Temperature‐Variation Personal Thermal Management | Litcius