Highly Regulatable Heat Conductance of Graphene-Sericin Hybrid for Responsive Textiles

XP Liang and AR Fan and Z Li and N Wei and W Fan and HR Liang and HM Wang and P Bi and S Li and XE Wu and HJ Lu and Q Hao and X Zhang and YY Zhang, ADVANCED FUNCTIONAL MATERIALS, 32, 2111121 (2022).

DOI: 10.1002/adfm.202111121

Advanced heat-managing textiles not only improve the comfort of individual but also reduce the energy consumption of the heat-managing systems of building. To meet the demand of heat-managing in a dynamic environment, responsive textiles with tunable thermal convection and radiation have been developed, while the design of fabrics with tunable thermal conduction remains unexplored. Here, a humidity-driven and flexible thermal conductance regulating material is developed that shows an unprecedented switching ratio up to 14x, which is composed of brick- and-mortar structured graphene and silk sericin (GS). This work investigates the microstructure variation in response to humidity experimentally and theoretically. The regulation can be ascribed to the hydration/dehydration of sericin and the subsequent changing in graphene-sericin interfacial thermal conductance. It is demonstrated that the GS can be facilely coated on ordinary textiles through dyeing to achieve responsive thermal-managing clothes with a significant and reversible response toward the variation of environment humidity.

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