학술논문
Large thermopower in novel thermoelectric Yb(Si1−x Gex )2 induced by valence fluctuation.
Document Type
Article
Author
Source
Subject
*VALENCE fluctuations
*THERMOELECTRIC materials
*KONDO effect
*ENERGY harvesting
*ELECTRIC conductivity
*THERMOELECTRIC power
*SEEBECK coefficient
*YTTERBIUM
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Language
ISSN
0021-8979
Abstract
Ytterbium silicide-based thermoelectric materials have attracted attention because they exhibit large power factors owing to large absolute values of their Seebeck coefficient as well as high electrical conductivity. Here, we demonstrate that, in the Yb(Si1−xGex)2 system, by controlling the valence fluctuation, we combine two phenomena, namely, the Kondo effect and suppression of the spin fluctuation. This leads to a large density of states and the suppression of the spin fluctuation of the 4f electrons, thereby resulting in a high Seebeck coefficient with extremely low resistivity. Consequently, Yb(Si0.5Ge0.5)2 exhibits a high-power factor of 8.4 mW K−2 m−1, which makes energy harvesting from a cold source a practical possibility. [ABSTRACT FROM AUTHOR]