材料科学
可穿戴计算机
热电效应
热电发电机
可穿戴技术
热导率
热接触
热电偶
跟踪(教育)
数码产品
可靠性(半导体)
热的
机械工程
功率(物理)
电压
电接点
工作(物理)
热电材料
功率密度
电极
计算机科学
结温
热接触电导
热电冷却
基质(水族馆)
热传导
生物信号
接触面积
能量收集
光电子学
塞贝克系数
电气工程
接触力
电子工程
机械能
信号(编程语言)
跟踪误差
接触电阻
热能
电势能
作者
Xingzhong Zhang,Shijie Fang,Sulin Hua,Zhihua Xiong,Rui Xiong
摘要
ABSTRACT Flexible thermoelectric generators (TEGs) capable of conformal contact with curved heat sources, offering a promising approach for efficiently converting body heat into electrical energy to power wearable electronics. However, existing TEG typically suffer from inadequate mechanical flexibility, limited thermal conductivity efficiency, and insufficient conformability to complex geometries. Herein, we present a self‐powered wearable TEG for continuous health monitoring and thermal perception. A high thermal conductivity elastic composite (Ecoflex/EGaIn/GNSs) overcomes the flexibility‐thermal management trade‐off, achieving 1.45 W·m −1 ·K −1 and 735.5% strain. The optimized device exhibits superior output performance, delivering an output voltage of 494.81 mV and a power density of 12.96 mW/cm 2 under a temperature difference of 35 K. The stretchable Ecoflex substrate combined with a serpentine electrode design effectively enhances mechanical reliability and enables intimate contact with complex 3D surfaces. Demonstrated applications encompass self‐powered smartwatches, health monitoring devices, and thermal sensing gloves for temperature warning. This work establishes a compelling pathway toward adaptive thermoelectric (TE) electronic skin for next‐generation human‐machine interactive systems.
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