Giant Power Output from Ionic/electronic Hybrid Nanocomposite Thermoelectric Converter Under Constant Temperature Gradient.

IF 14.3 1区材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY

Advanced Science Pub Date : 2024-11-23 DOI:10.1002/advs.202406589

Siqi Liu, Mingxia Zhang, Junhua Kong, Hui Li, Chaobin He

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引用次数: 0

Abstract

Thermoelectric (TE) materials that directly convert heat to electricity are of great significance for sustainable development. However, TE generators (TEGs) made from electronic TE materials suffer from low Seebeck coefficient (10^-2-10⁰ mV K^-1). While ionic TE capacitors based on ionic conductors exhibit high thermovoltage (10⁰-10² mV K^-1), ionic TE capacitors provide power discontinuously only under variation of temperature gradient as ions cannot transport across electrodes to external circuits. Herein, an ionic/electronic hybrid nanocomposite TE converter (NCTEC) by integrating carbon nanotube/polylactic acid nanofibrous fabrics (CPNF) with gelatin ionogel is reported. The resulting NCTEC exhibits a record-high output power density normalized by squared temperature gradient (P_ave/ΔT²) of 1.72 mW m^-2 K^-2 and realizes continuous power output (over 12 h) at a constant temperature gradient, which is among the highest reported power output for TE converters and can be attributed to the combination of substantial increase in interfacial capacitive effect between ionogel and CPNF and an optimized electrical property of the CPNF. The work provides an effective strategy to overcome the limitations of both TEGs and ionic TE capacitors.

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离子/电子混合纳米复合热电转换器在恒定温度梯度下的巨大功率输出

热电（TE）材料可直接将热量转化为电能，对可持续发展具有重要意义。然而，由电子 TE 材料制成的 TE 发电机（TEG）存在塞贝克系数低（10-2-100 mV K-1）的问题。虽然基于离子导体的离子 TE 电容器具有较高的热电压（100-102 mV K-1），但离子 TE 电容器只能在温度梯度变化时提供不连续的功率，因为离子无法通过电极传输到外部电路。本文报告了一种离子/电子混合纳米复合 TE 转换器（NCTEC），它将碳纳米管/聚乳酸纳米纤维织物（CPNF）与明胶离子凝胶集成在一起。由此产生的 NCTEC 按温度梯度平方归一化（Pave/ΔT2）显示出创纪录的 1.72 mW m-2 K-2 输出功率密度，并在恒定温度梯度下实现了连续功率输出（超过 12 小时），这是目前所报道的 TE 转换器最高功率输出之一，可归因于离子凝胶和 CPNF 之间界面电容效应的大幅增加以及 CPNF 电性能的优化。这项工作为克服 TEG 和离子 TE 电容器的局限性提供了一种有效的策略。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Advanced Science CHEMISTRY, MULTIDISCIPLINARYNANOSCIENCE &-NANOSCIENCE & NANOTECHNOLOGY

CiteScore

18.90

自引率

2.60%

发文量

1602

审稿时长

1.9 months

期刊介绍： Advanced Science is a prestigious open access journal that focuses on interdisciplinary research in materials science, physics, chemistry, medical and life sciences, and engineering. The journal aims to promote cutting-edge research by employing a rigorous and impartial review process. It is committed to presenting research articles with the highest quality production standards, ensuring maximum accessibility of top scientific findings. With its vibrant and innovative publication platform, Advanced Science seeks to revolutionize the dissemination and organization of scientific knowledge.