A review on the active thermal management researches of epidermal electronic devices

As a representative of flexible electronics, epidermal electronic devices (EEDs) are extremely suitable for integration with biological tissues, such as human epidermis benefiting from the advantages of ultrathin, stretchability, and perfectly conformal attachment. Considering the low thermal conduc...

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Veröffentlicht in:	AIP Advances 2022-11, Vol.12 (11), p.110701-110701-14
Hauptverfasser:	Cui, Yun, Zhang, Haochi, Zhao, Zhao, Shi, Yingli
Format:	Artikel
Sprache:	eng
Schlagworte:	Electronic devices Energy storage Epidermis Flexible components Heat transfer Heat transmission Stretchability Thermal comfort Thermal conductivity Thermal management Tissues
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creator	Cui, Yun Zhang, Haochi Zhao, Zhao Shi, Yingli
description	As a representative of flexible electronics, epidermal electronic devices (EEDs) are extremely suitable for integration with biological tissues, such as human epidermis benefiting from the advantages of ultrathin, stretchability, and perfectly conformal attachment. Considering the low thermal conductivity of the EEDs polymer material, a large amount of undesired heat accumulation is prone to occur at the EEDs/skin interface, which brings challenges to the thermal management of the EEDs/skin system. The sharp temperature increment caused by ungratified heat dissipation will lead to thermal comfort issues, such as damage to biological tissues and also device failure, which will limit the application and promotion of EEDs to a large extent. A growing quantity of interesting and fruitful literature are addressing this conundrum. In this review, we comb and review the research of EEDs active thermal management, which mainly summarizes the strategies of heat flow regulation, phase change energy storage, and heating mode design. This review aims to provide the overall advances and reference source for future innovative research directions.
doi_str_mv	10.1063/5.0128599
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subjects	Electronic devices Energy storage Epidermis Flexible components Heat transfer Heat transmission Stretchability Thermal comfort Thermal conductivity Thermal management Tissues
title	A review on the active thermal management researches of epidermal electronic devices
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