posted on 2025-01-11, 05:03authored byZhenlong Huang, Longpeng Yang, Tao Chen, Rui Zhou, Yan Jiang, Binbin Jiang, Dongfeng Xue, Yuan Lin
Stretchable electronics have significant applications
in wearable
applications. However, the extremely low thermal conductivity of elastic
encapsulation hinders heat dissipation, leading to performance degradation.
For instance, stretchable thermoelectric devices (TEDs) can be used
for skin temperature regulation, but poor thermal management limits
their cooling performance. This article proposes advanced material
and fabrication optimization for stretchable TED with a three-dimensional
structure, achieving enhanced performance through the stacked integration
of multilayer thermoelectric unit networks. Techniques such as laser
ablation are employed to create thermal vias, significantly improving
interlayer thermal exchange efficiency. The resulting device can achieve
30% stretching and provides a stable and long-term 10 °C skin
cooling under normal arm movement. Additionally, by integrating temperature
sensing and control circuits, the fabricated wearable closed-loop
system can programmatically regulate skin temperature, suitable for
virtual temperature and pain sensation. The 3D integration method
and thermal via construction technique proposed in this article can
also be applied to other high-power stretchable electronics.