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Entropy engineering promotes thermoelectric performance while realizing P–N switchable conduction in BiSbSe1.5Te1.5

Release Time:2024-10-31  Hits:

Date of Publication: 2024-09-29

Journal: Materials Today Chemistry

Volume: 40

ISSN: 2468-5194

Key Words: Chemical compositions; Compounding (chemical); Defect engineering; Electrical transport properties; Entropy engineering; Germanium compounds; Identical chemical composition; N-type bisbse1.25te1.75; Phosphorus compounds; P-n junction; Selenium compounds; Silicon compounds; Switchable; Thermoelectric material; Thermo-Electric materials; Thermoelectric performance

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