Author:
Champness C. H.,Muir W. B.,Chiang P. T.
Abstract
Room temperature measurements of the Seebeck coefficient (α), electrical conductivity (σ), thermal conductivity (κ), and thermoelectric figure of merit (Z) were made on samples of n-type Bi2Te3–Bi2Se3 pseudobinary alloys over the whole composition range. To obtain maximum Z, doping was carried out at each composition by the addition of CuBr (donor) from 0 to 66 mole% Bi2Se3 and by lead and excess Se (acceptors) thereafter. Experimentally determined values of the materials parameter β were found to saturate (β∞) at high conductivity in a given alloy and close relationship was found between β∞ and Zmax The optimized values of σ, κ, and CuBr-dopant concentration were found to show a maximum at 33 mole% Bi2Se3, while the optimized value of α showed a minimum at this composition. These results, together with the fact that no maximum was observed in σ at constant α (i.e., constant carrier concentration), suggest that a maximum in the carrier concentration occurs in optimized material at this composition. Further support for this was provided by the observed variation of σ with α at a given composition which was found to be more consistent with a minimum in the apparent energy gap near 33% Bi2Se3 rather than the maximum reported by other workers.
Publisher
Canadian Science Publishing
Subject
General Physics and Astronomy
Cited by
31 articles.
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