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Indexed by:Journal Papers

Date of Publication:2020-06-01

Journal:MATERIALS RESEARCH BULLETIN

Included Journals:SCIE

Volume:126

ISSN No.:0025-5408

Key Words:BiCuSeO; Sm doping; Thermoelectric properties; First-principles calculations

Abstract:Here, the effects of variable-valence element Sm doping on the thermoelectric performance of BiCuSeO are studied. The Bi1-xSmxCuSeO (x = 0, 0.025, 0.05, and 0.10) oxyselenides were prepared by a two-step solid state reaction and spark plasma sintering. Experimental measurements and first-principles calculations indicated that Sm2+ and Sm3+ coexisted in the samples. The electrical conductivity of the Sm-doped samples was greater than that of pristine BiCuSeO mainly because the holes introduced by Sm2+ doping increased the carrier concentration, and the shift of the Fermi level by Sm(3+ )substitution changed the band gap. The combination of a moderate Seebeck coefficient and relativity low thermal conductivity, gave a maximum ZT value of 0.65 at 823 K for Bi0.975Sm0.025CuSeO, which is approximately 25 % higher than that of the pristine sample. This study indicates that doping with rare-earth variable-valence elements is an efficient approach to designing high-performance thermoelectric materials.