Organic Thermoelectrics and Thermoelectric Generators (TEGs)

Advanced Thermoelectric Materials for Energy Harvesting Applications Pub Date : 2019-09-27 DOI:10.5772/intechopen.86946

L. Tzounis

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引用次数: 2

Abstract

Inorganic and organic thermoelectric (TE) materials have received an extensive scientific interest during the last decades, due to their ability to directly convert the thermal energy to electricity. This is described by the well-known “ Seebeck effect ” . TE materials can convert also electricity into cooling through the “ Peltier effect ” . As such, TE materials and thermoelectric generator (TEG) devices can be utilized for potential applications including (i) thermal energy harvesting, (ii) local cooling and (iii) temperature sensing. The direct conversion of heat into electricity has been one of the most attractive solutions to the severe environmental and energy issues the humanity is coming across. This chapter covers the fundamental working principle of TE materials, the synthetic protocols for inorganic and organic thermoelectric materials, techniques and technologies for the fabrication of thermoelectric generators (otherwise defined as thermoelectric module devices) and a number of applications. Finally, future aspects and outlooks for further advancements at the “ material ” or “ device ” level for efficient power generation are remarked.

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有机热电和热电发电机(teg)

无机和有机热电(TE)材料在过去的几十年里受到了广泛的科学关注，因为它们能够直接将热能转化为电能。这就是著名的“塞贝克效应”。TE材料还可以通过“珀尔帖效应”将电能转化为冷却。因此，TE材料和热电发生器(TEG)装置可以用于潜在的应用，包括(i)热能收集，(ii)局部冷却和(iii)温度传感。直接将热能转化为电能是解决人类所面临的严重的环境和能源问题的最具吸引力的方法之一。本章涵盖了TE材料的基本工作原理，无机和有机热电材料的合成协议，热电发电机(也被定义为热电模块设备)的制造技术和技术以及一些应用。最后，对高效发电的“材料”或“设备”水平的进一步发展的未来方面和前景进行了评论。

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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Advanced Thermoelectric Materials for Energy Harvesting Applications

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