Review—Micro and Nano-Engineering Enabled New Generation of Thermoelectric Generator Devices and Applications

Abstract
As we are advancing our world to smart living, a critical challenge is increasingly pressing - increased energy demand. While we need mega power supplies for running data centers and other emerging applications, we also need instant small- scale power supply for trillions of electronics that we are using and will use in the age of Internet of Things (IoT) and Internet of Everything (IoE). Such power supplies must meet some parallel demands: sufficient energy supply in reliable, safe and affordable manner. In that regard, thermoelectric generators emerge as important renewable energy source with great potential to take advantage of the widely-abundant and normally-wasted thermal energy. Thanks to the advancements of nano-engineered materials, thermoelectric generators' (TEG) performance and feasibility are gradually improving. However, still innovative engineering solutions are scarce to sufficiently take the TEG performance and functionalities beyond the status-quo. Opportunities exist to integrate them with emerging fields and technologies such as wearable electronics, bio-integrated systems, cybernetics and others. This review will mainly focus on unorthodox but effective engineering solutions to notch up the overall performance of TEGs and broadening their application base. First, nanotechnology's influence in TEGs' development will be introduced, followed by a discussion on how the introduction of mechanically reconfigurable devices can shape up the emerging spectrum of novel TEG technologies. (C) The Author(s) 2017. Published by ECS.

Citation
Rojas JP, Singh D, Inayat SB, Sevilla GAT, Fahad HM, et al. (2017) Review—Micro and Nano-Engineering Enabled New Generation of Thermoelectric Generator Devices and Applications. ECS Journal of Solid State Science and Technology 6: N3036–N3044. Available: http://dx.doi.org/10.1149/2.0081703jss.

Publisher
The Electrochemical Society

Journal
ECS Journal of Solid State Science and Technology

DOI
10.1149/2.0081703jss

Additional Links
http://jss.ecsdl.org/content/6/3/N3036

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