Chenjin Liu scite author profile

n-Type Zr-Ni-Sn thermoelectric thin films with thickness of 60 nm to 400 nm were deposited by radiofrequency magnetron sputtering. The microstructure of the Zr-Ni-Sn thin films was examined by x-ray diffractometry and highresolution transmission electron microscopy, revealing an amorphous microstructure. The thermal conductivity of the amorphous films was measured by the ultrafast laser pump-probe thermoreflectance technique, revealing values of 1.4 W m À1 K À1 to 2.2 W m À1 K À1 , smaller than that of bulk material because of the amorphous microstructure of the films. The effects of the sputtering power on the composition, Seebeck coefficient, and electrical conductivity of the films were investigated. The largest Seebeck coefficient and power factor were achieved at 393 K, being À112.0 lV K À1 and 2.66 mW K À2 m À1 , respectively. The low thermal conductivity and high power factor indicate that amorphous Zr-Ni-Sn thin films could be a promising material for use in thermoelectric microdevices.

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FeVSb-based amorphous films with ultra-low thermal conductivity and high ZT: a potential material for thermoelectric generators

Liu

Xiong

Huang

et al. 2018

J. Mater. Chem. A

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Chenjin Liu

Single-crystalline 2D erucamide with low friction and enhanced thermal conductivity

Thermoelectric Properties of Amorphous Zr-Ni-Sn Thin Films Deposited by Magnetron Sputtering

FeVSb-based amorphous films with ultra-low thermal conductivity and high ZT: a potential material for thermoelectric generators

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