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Flexible Thermoelectric Materials for Wearable Energy Harvesting: Advances in Polymers and Hybrid Architectures

Momanyi Amos Okirigiti, Kwi-il Park
J Electr Electron Mater 2025;38(5):469-480.
Published online: September 1, 2025
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The rapid evolution of wearable technology has driven a surge in demand for sustainable, self-powered electronic devices. Flexible thermoelectric materials, capable of converting body heat into electricity, have emerged as a promising solution for powering next-generation wearables. This review comprehensively examines recent progress in organic (polymer-based) and hybrid thermoelectric materials, focusing on their design, fabrication, and integration into flexible architectures suitable for conformal contact with human skin. Key developments include advanced doping strategies, post-treatment techniques, and composite engineering, particularly in conductive polymers such as PEDOT: PSS and P3HT, which have significantly enhanced power factors and mechanical flexibility. Additionally, the integration of high-performance inorganic materials into stretchable systems has further elevated device efficiency and durability. The review highlights breakthroughs, ongoing challenges, and future opportunities in realizing practical, scalable, and high-efficiency wearable thermoelectric generators for sustainable energy harvesting applications.

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Flexible Thermoelectric Materials for Wearable Energy Harvesting: Advances in Polymers and Hybrid Architectures
J Electr Electron Mater. 2025;38(5):469-480.   Published online September 1, 2025
Download Citation

Download a citation file in RIS format that can be imported by all major citation management software, including EndNote, ProCite, RefWorks, and Reference Manager.

Format:
Include:
Flexible Thermoelectric Materials for Wearable Energy Harvesting: Advances in Polymers and Hybrid Architectures
J Electr Electron Mater. 2025;38(5):469-480.   Published online September 1, 2025
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