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Literature DB >> 33922193

Bottom-Up (Cu, Ag, Au)/Al₂O₃/Bi₂Te₃ Assembled Thermoelectric Heterostructures.

Zhenhua Wu^1,2,3, Shuai Zhang^1,2,3, Zekun Liu^1,2,3, Cheng Lu^1,2,3, Zhiyu Hu¹.

Abstract

The interface affects the transmission behavior of electrons and phonons, which in turn determines the performance of thermoelectric materials. In this paper, metals (Cu, Ag, Au)/Al2O3/Bi2Te3 heterostructures have been fabricated from bottom to up to optimize the thermoelectric power factor. The introducing metals can be alloyed with Bi2Te3 or form interstitials or dopants to adjust the carrier concentration and mobility. In addition, the metal-semiconductor interface as well as the metal-insulator-semiconductor interface constructed by the introduced metal and Al2O3 would further participate in the regulation of the carrier transport process. By adjusting the metal and oxide layer, it is possible to realize the simultaneous optimization of electric conductivity and Seebeck coefficient. This work will enable the optimal and novel design of heterostructures for thermoelectric materials with further improved performance.

Entities: Chemical Disease Gene

Keywords: Bi2Te3; heterostructure; interface; metal; oxide; thermoelectric

Year: 2021 PMID： 33922193 DOI： 10.3390/mi12050480

Source DB: PubMed Journal: Micromachines (Basel) ISSN： 2072-666X Impact factor: 2.891

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6. Identifying the Manipulation of Individual Atomic-Scale Defects for Boosting Thermoelectric Performances in Artificially Controlled Bi₂Te₃ Films.

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7. New Insights into Intrinsic Point Defects in V₂VI₃ Thermoelectric Materials.

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