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W3048969983 abstract "Organic thermoelectrics have attracted considerable attention owing to their remarkable advantages, including room-temperature power generation, skin-attachable/wearable applications with biocompatibility, and solution-based high-throughput fabrication. Self-doped conjugated polyelectrolytes (CPEs) constitute a promising class of conductive organic materials that are considered potential candidates for organic thermoelectrics. However, the low power factor of CPEs derived from their low electrical conductivity (σ) has been a major drawback in CPE-based thermoelectrics. Herein, we report a strategy for enhancing the thermoelectric performance of CPEs through post-treatment using aq H2SO4 solution. The post-treatment increases σ by 2 orders of magnitude, originating from H2SO4-induced doping accompanying a significant increase in charge-carrier concentration. Consequently, a power factor of 3.0 μW m–1 K–2 is achieved at room temperature. Furthermore, using this highly conductive H2SO4-doped CPE, we developed flexible thermoelectric generators that allow durable power generation under repetitive mechanical bending stresses. Our findings provide insight into developing high-performance and versatile CPEs for the next-generation organic thermoelectrics." @default.
W3048969983 created "2020-08-18" @default.
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W3048969983 date "2020-08-10" @default.
W3048969983 modified "2023-10-18" @default.
W3048969983 title "A Highly Conductive Conjugated Polyelectrolyte for Flexible Organic Thermoelectrics" @default.
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W3048969983 doi "https://doi.org/10.1021/acsaem.0c01213" @default.
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