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Flexible Organic Thermoelectric Materials and Devices for Wearable Green Energy Harvesting

机译：柔性绿色热电材料和可穿戴绿色能源收集装置

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摘要

In the past few decades, organic thermoelectric materials/devices, which can exhibit remarkable potential in green energy conversion, have drawn great attention and interest due to their easy processing, light weight, intrinsically low thermal conductivity, and mechanical flexibility. Compared to traditional batteries, thermoelectric materials have high prospects as alternative power generators for harvesting green energy. Although crystalline inorganic semiconductors have dominated the fields of thermoelectric materials up to now, their practical applications are limited by their intrinsic fragility and high toxicity. The integration of organic polymers with inorganic nanoparticles has been widely employed to tailor the thermoelectric performance of polymers, which not only can combine the advantages of both components but also display interesting transport phenomena between organic polymers and inorganic nanoparticles. In this review, parameters affecting the thermoelectric properties of materials were briefly introduced. Some recently developed n-type and p-type thermoelectric films and related devices were illustrated along with their thermoelectric performance, methods of preparation, and future applications. This review will help beginners to quickly understand and master basic knowledge of thermoelectric materials, thus inspiring them to design and develop more efficient thermoelectric devices.

机译：在过去的几十年中，有机热电材料/器件在绿色能源转换中显示出巨大的潜力，由于其易于加工，重量轻，固有的低导热性和机械柔韧性而引起了极大的关注和关注。与传统电池相比，热电材料具有广阔的前景，可以替代绿色能源。尽管迄今为止，结晶无机半导体已经占据了热电材料领域的主导地位，但其实际应用受到其固有的脆弱性和高毒性的限制。有机聚合物与无机纳米颗粒的集成已被广泛用于调整聚合物的热电性能，这不仅可以结合两种组分的优点，而且在有机聚合物和无机纳米颗粒之间显示出有趣的传输现象。在这篇综述中，简要介绍了影响材料热电性能的参数。展示了一些最近开发的n型和p型热电薄膜及相关器件，以及它们的热电性能，制备方法和未来的应用。这篇综述将帮助初学者快速了解和掌握热电材料的基本知识，从而启发他们设计和开发更高效的热电设备。

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期刊名称 Polymers
作者
Yinhang Zhang; Soo-Jin Park;
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作者单位

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年(卷),期 2019(11),5
年度 2019
页码 909
总页数 18
原文格式 PDF
正文语种
中图分类分子生物学;
关键词
organic thermoelectric materials Seebeck coefficient thermal conductivity;

机译：有机热电材料;塞贝克系数;导热系数;

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专利

1. Flexible Organic Thermoelectric Materials and Devices for Wearable Green Energy Harvesting [J] . Yinhang Zhang, Soo-Jin Park Polymers . 2019,第5期

机译：柔性绿色热电材料和可穿戴绿色能源收集装置
2. Flexible thermoelectric materials and device optimization for wearable energy harvesting [J] . Bahk Je-Hyeong, Fang Haiyu, Yazawa Kazuaki, Journal of Materials Chemistry, C. materials for optical and electronic devices . 2015,第40期

机译：灵活的热电材料和设备优化，可收集能量
3. High-Performance Flexible Thermoelectric Devices Based on All-Inorganic Hybrid Films for Harvesting Low-Grade Heat [J] . BoWu, YangGuo, ChengyiHou, Advanced Functional Materials . 2019,第25期

机译：基于全无机杂化膜的高性能柔性热电器件，用于收集低品位热量
4. (Invited) Phonon Engineering in Thermoelectric Materials and Flexible Thermoelectric Devices for Body Heat Harvesting and Personal Thermoregulation [C] . Woochul Kim Meeting of the Electrochemical Society;International Meeting on Chemical Sensors . 2020

机译：（邀请的）主电动材料的声子工程和用于体温收集和个人热调节的柔性热电装置
5. Development and Characterization of Next Generation Flexible Dielectric and Thermoelectric Energy Harvesting Materials. [D] . Sun, Yu-Chen. 2015

机译：下一代柔性介电和热电能量收集材料的开发和表征。
6. Compliant and stretchable thermoelectric coils for energy harvesting in miniature flexible devices [O] . Kewang Nan, Stephen Dongmin Kang, Kan Li, 2018

机译：符合标准且可拉伸的热电线圈用于小型柔性设备中的能量收集
7. Organic Thermoelectric Materials for Wearable Thermoelectric Devices [O] . Takao Ishida 2015

机译：可穿戴热电装置的有机热电材料

Flexible Organic Thermoelectric Materials and Devices for Wearable Green Energy Harvesting

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