| Literature DB >> 28929555 |
Zhiwei Huang1,2, Samuel A Miller3, Binghui Ge4, Mingtao Yan1,2, Shashwat Anand3, Tianmin Wu5, Pengfei Nan6, Yuanhu Zhu1, Wei Zhuang5, G Jeffrey Snyder3, Peng Jiang1, Xinhe Bao1.
Abstract
GeSe is a IV-VI semiconductor, like the excellent thermoelectric materials PbTe and SnSe. Orthorhombic GeSe has been predicted theoretically to have good thermoelectric performance but is difficult to dope experimentally. Like PbTe, rhombohedral GeTe has a multivalley band structure, which is ideal for thermoelectrics and also promotes the formation of Ge vacancies to provide enough carriers for electrical transport. Herein, we investigate the thermoelectric properties of GeSe alloyed with AgSbSe2 , which stabilizes a new rhombohedral structure with higher symmetry that leads to a multivalley Fermi surface and a dramatic increase in carrier concentration. The zT of GeAg0.2 Sb0.2 Se1.4 reaches 0.86 at 710 K, which is 18 times higher than that of pristine GeSe and over four times higher than doped orthorhombic GeSe. Our results open a new avenue towards developing novel thermoelectric materials through crystal phase engineering using a strategy of entropy stabilization of high-symmetry alloys.Entities:
Keywords: GeSe; co-doping; energy conversion; high-entropy alloying; thermoelectrics
Year: 2017 PMID: 28929555 DOI: 10.1002/anie.201708134
Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN: 1433-7851 Impact factor: 15.336