1. Enhancing thermoelectric figure-of-merit by low-dimensional electrical transport in phonon-glass crystals
- Author
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Mi, Xue-Ya, Yu, Xiaoxiang, Yao, Kai-Lun, Huang, Xiaoming, Yang, Nuo, and Lü, Jing-Tao
- Subjects
Condensed Matter - Materials Science - Abstract
Low-dimensional electronic and glassy phononic transport are two important ingredients of highly-efficient thermoelectric material, from which two branches of the thermoelectric research emerge. One focuses on controlling electronic transport in the low dimension, while the other on multiscale phonon engineering in the bulk. Recent work has benefited much from combining these two approaches, e.g., phonon engineering in low-dimensional materials. Here, we propose to employ the low-dimensional electronic structure in bulk phonon-glass crystal as an alternative way to increase the thermoelectric efficiency. Through first-principles electronic structure calculation and classical molecular dynamics simulation, we show that the $\pi$-$\pi$ stacking Bis-Dithienothiophene molecular crystal is a natural candidate for such an approach. This is determined by the nature of its chemical bonding. Without any optimization of the material parameter, we obtain a maximum room-temperature figure of merit, $ZT$, of $1.48$ at optimal doping, thus validating our idea., Comment: Nano Lett.2015
- Published
- 2015
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