Thermoelectric Materials and Applicative Issues for Energy Harvesting to Power IoT Sensors and Devices

T. Mori
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Abstract

There is a vital need to develop technologies to dynamically harvest energy from surroundings to power IoT applications [1]. Thermoelectrics is promising, since it enables utilization of ubiquitous thermal energy like body heat [2]. In regards to viable thermoelectric applications, the performance (high Figure of merit ZT) of the materials is important, but likewise critical is the appropriate processing and fabrication methods of effective modules. The cheapness of materials can usually not justify poor thermoelectric performance since the cost of viable materials is typical not the major cost in the module production. Considering applicative issues, we have been developing two strategies, developing inorganic thermoelectric thin films, and developing hybrid or “sticky” inorganic-organic composite materials [3]. The former using sputtering can be compatible to industrial processes and the thin film modules can be readily integrated into IoT devices. The latter can potentially enable roll to roll production of inexpensive large area sheets. I will present our work on these two strategies.
为物联网传感器和设备提供能量收集的热电材料和应用问题
迫切需要开发技术来动态地从周围环境中获取能量,为物联网应用提供动力[1]。热电是有前途的,因为它可以利用无处不在的热能,如人体热量[2]。关于可行的热电应用,材料的性能(高品质值ZT)很重要,但同样关键的是有效模块的适当加工和制造方法。材料的廉价通常不能证明热电性能差是合理的,因为可行材料的成本通常不是组件生产中的主要成本。考虑到应用问题,我们一直在发展两种策略,一是发展无机热电薄膜,二是发展杂化或“粘性”无机-有机复合材料[3]。前者使用溅射可以兼容工业工艺,薄膜模块可以很容易地集成到物联网设备中。后者可以潜在地使卷对卷生产廉价的大面积板材。我将介绍我们在这两项战略方面的工作。
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