2024-03-29T14:26:20Zhttp://digital.csic.es/dspace-oai/requestoai:digital.csic.es:10261/2003912020-05-13T01:08:16Zcom_10261_10252com_10261_3col_10261_10253
DIGITAL.CSIC
author
Ostovari Moghaddam, Ahmad
author
Shokuhfar, Ali
author
Zhang, Yu
author
Zhang, Ting
author
Cadavid, Doris
author
Arbiol, Jordi
author
Cabot, Andreu
2020-02-12T10:12:36Z
2020-02-12T10:12:36Z
2019
Advanced Materials Interfaces 6(18): 1900467 (2019)
http://hdl.handle.net/10261/200391
10.1002/admi.201900467
2196-7350
ZnSb/β‐Zn4Sb3 nanocomposites are produced from Zn1.1−xGexSb mixtures using a two‐step process. First, proper amounts of the three elements are mixed, melted, and reacted at 800 K. During this process, the nonstoichiometric mixture is crystallized in a combination of ZnSb and β‐Zn4Sb3 phases. Then, the material is ball milled and subsequently hot pressed. Through this process, a dense ZnSb/β‐Zn4Sb3 composite, consisting of β‐Zn4Sb3 nanoinclusions embedded within a ZnSb matrix, is formed. The particular phase distribution of the final ZnSb/β‐Zn4Sb3 composites is a consequence of the harder and more brittle nature of ZnSb than Zn4Sb3, which translates into a stronger reduction of the size of the ZnSb crystal domains during ball milling. This small particle size and the high temperature generated during ball milling result in the melting of the ZnSb phase and the posterior crystallization of the two phases in a ZnSb/β‐Zn4Sb3 matrix/nanoinclusion‐type phase distribution. This particular phase distribution and the presence of Ge result in excellent thermoelectric performances, with power factors up to 1.5 mW m−1 K−2, lattice thermal conductivities down to 0.74 W m−1 K−1, and a thermoelectric figures of merit, ZT, up to 1.2 at 650 K, which is among the highest ZT values reported for ZnSb.
eng
openAccess
Ge-doped ZnSb/β-Zn4Sb3 nanocomposites with high thermoelectric performance
artículo
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URL
https://digital.csic.es/bitstream/10261/200391/3/Geperform.pdf
File
MD5
0246a4b7c47a99f8076e67fcb85ed349
1949592
application/pdf
Geperform.pdf