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High Thermal Conductivity and Radiative Cooling Designed Boron Nitride Nanosheets/Silk Fibroin Films for Personal Thermal Management

Juncheng Xia, Xiangdong Kong, Linhong Li, Zhenbang Zhang, Yapeng Chen, Maohua Li, Yue Qin, Tao Cai, Wen Dai, Shuangquan Fang, Jian Yi, Cheng‐Te Lin, Kazuhito Nishimura, Nan Jiang, Jinhong Yu

2024ACS Applied Materials & Interfaces43 citationsDOI

Abstract

The implementation of passive cooling strategies is crucial for transitioning from the current high-power- and energy-intensive thermal management practices to more environmentally friendly and carbon-neutral alternatives. Among the various approaches, developing thermal management materials with high thermal conductivity and emissivity for effective cooling of personal and wearable devices in both indoor and outdoor settings poses significant challenges. In this study, we successfully fabricated a cooling patch by combining biodegradable silk fibroin with boron nitride nanosheets. This patch exhibits consistent heat dissipation capabilities under different ambient conditions. Leveraging its excellent radiative cooling efficiency ( R solar = 0.89 and ε LWIR = 0.84) and high thermal conductivity (in-plane 27.58 W m –1 K –1 and out-plane 1.77 W m –1 K –1 ), the cooling patch achieves significant simulated skin temperature reductions of approximately 2.5 and 8.2 °C in outdoor and indoor conditions, respectively. Furthermore, the film demonstrates excellent biosafety and can be recycled and reused for at least three months. This innovative BNNS/SF film holds great potential for advancing the field of personal thermal management materials.

Topics & Concepts

Materials scienceFibroinBoron nitrideThermal conductivityComposite materialThermalThermal management of electronic devices and systemsRadiative coolingSILKMechanical engineeringThermodynamicsPhysicsEngineeringThermal properties of materialsThermal Radiation and Cooling TechnologiesAdvanced Thermoelectric Materials and Devices
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