Photothermal–Thermoelectric Synergistic Enhancement of PEDOT/CNT/PPy Flexible Textile Thermoelectric Devices for Waste Heat and Solar Energy Harvesting

材料科学 热电发电机 热电效应 碳纳米管 电压 太阳能 余热 复合数 能量转换效率 能量转换 热的 可再生能源 热能 能量收集 织物 热电冷却 工艺工程 发电 光伏系统 热电材料 光电子学 热电偶 碳纤维 发热 红外线的 复合材料 机械工程 环境科学 纳米技术 废物管理
作者
Jiahui Li,Yali Wang,Xiaoxuan Fan,Yazhou Zhang,Jia‐Horng Lin,Ting-Ting Li,Ching‐Wen Lou
出处
期刊:ACS applied energy materials [American Chemical Society]
卷期号:8 (19): 14477-14485
标识
DOI:10.1021/acsaem.5c02173
摘要

Wearable thermoelectric generators (TEGs) rely on significant thermal gradients. They are susceptible to ambient conditions, including temperature and humidity, which compromise their longevity, wearability, and breathability, thereby limiting their utility in human microenvironments. This study introduced a layer-by-layer assembled photothermoelectric fabric comprising poly(3,4-ethylenedioxythiophene)/carbon nanotubes/polypyrrole (PEDOT/CNT/PPy), engineered for self-powered electricity generation through the capture and conversion of environmental solar and thermal energy. Poly(3,4-ethylenedioxythiophene) was deposited on the fabric via low-temperature interfacial polymerization, incorporating carbon nanotubes to establish an organic/inorganic hybrid system, thereby enhancing the composite material’s overall thermoelectric performance. Subsequently, to enhance the thermal-to-electric conversion of the PEDOT/CNT thermoelectric fabric, it was integrated with polypyrrole, which exhibited superior photothermal conversion properties, constructing an organic/inorganic photothermoelectric fabric with a core–shell architecture to achieve an integrated light-to-heat, heat-to-electricity composite conversion. The PEDOT/CNT/PPy flexible photothermoelectric fabric achieved a maximum output voltage of 612.52 μV under infrared light irradiation and an output voltage of 270 μV under a temperature differential of 20 °C. Furthermore, a thermoelectric device assembled from three PEDOT/CNT/PPy strip fabrics affixed to the human arm generated an output voltage of 300 μV at room temperature. Consequently, the developed flexible photothermoelectric conversion fabric demonstrates potential for significant applications in innovative wearable technology and the sustainable energy sector.
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