A review on performance evaluation of bi2te3-based and some other thermoelectric nanostructured materials
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2021
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Abstract
Background: Future sustainable energy industrialization is a green energy source that has a lower circumstantial impact than traditional energy technologies. The advancement of new energy generation is important to expand the share of renewable energy sources. Objective: Worldwide, for the next generation, future energy demand may be fulfilled by using one of the renewable energy sources such as thermo electricity. Methods: The bismuth telluride–based (Bi2Te3-based) nanostructure material in thermo electricity still has a major part of applications. It is known as the most prospective TE device manufactured from a research arena towards successful commercialization. Results: The Bi2Te3-based nanostructure material is now on commercialization stages that it has some limitations. In order to find out the future direction of research and development of this mate-rial, the material will face a challenging way. Conclusion: The review paper provides an effective approach to overcome the limitation of Bi2Te3-based nanostructure. Moreover, in this review paper, the performance evaluation with existing Bi2Te3-based nanostructure and some other TE materials will be discussed in detail. © 2021 Bentham Science Publishers.
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Energy policy , Green manufacturing , Nanostructured materials , Nanostructures , Natural resources , Renewable energy resources , bismuth derivative , bismuth telluride , nanomaterial , unclassified drug , Bismuth telluride , Effective approaches , Energy technologies , Green energy sources , Nanostructure material , Renewable energy source , Research and development , Sustainable energy , electric conductivity , electricity , energy resource , process optimization , renewable energy , Review , thermal conductivity , Bismuth compounds