Enhanced Atomic Ordering Leads to High Thermoelectric Performance in AgSbTe

Overview

Journal Science

Specialty Science

Date 2021 Feb 12

PMID 33574210

Citations 41

Authors

Subhajit Roychowdhury

Tanmoy Ghosh

Raagya Arora

Manisha Samanta

Lin Xie

Niraj Kumar Singh

Ajay Soni

Jiaqing He

Umesh V Waghmare

Kanishka Biswas

Affiliations

Soon will be listed here.

Abstract

High thermoelectric performance is generally achieved through either electronic structure modulations or phonon scattering enhancements, which often counteract each other. A leap in performance requires innovative strategies that simultaneously optimize electronic and phonon transports. We demonstrate high thermoelectric performance with a near room-temperature figure of merit, ~ 1.5, and a maximum ~ 2.6 at 573 kelvin, by optimizing atomic disorder in cadmium-doped polycrystalline silver antimony telluride (AgSbTe). Cadmium doping in AgSbTe enhances cationic ordering, which simultaneously improves electronic properties by tuning disorder-induced localization of electronic states and reduces lattice thermal conductivity through spontaneous formation of nanoscale (~2 to 4 nanometers) superstructures and coupling of soft vibrations localized within ~1 nanometer around cadmium sites with local strain modulation. The strategy is applicable to most other thermoelectric materials that exhibit inherent atomic disorder.

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