Enhancement of thermoelectric figure-of-merit at low temperatures by titanium substitution for hafnium in n-type half-Heuslers Hf[subscript0.75−x]Ti[subscript x]Zr[subscript 0.25]NiSn[subscript 0.99]Sb[subscript 0.01]

Joshi, Giri; Dahal, Tulashi; Chen, Shuo; Wang, Hengzhi; Shiomi, Junichiro; Chen, Gang; Ren, Zhifeng

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Joshi, Giri; Dahal, Tulashi; Chen, Shuo; Wang, Hengzhi; Shiomi, Junichiro; ... Show more

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Enhancement of thermoelectric figure-of-merit at low temperatures by titanium substitution for hafnium in n-type half-Heuslers Hf0.75−xTixZr0.25NiSn0.99Sb0.01

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Abstract

The effect of titanium (Ti) substitution for hafnium (Hf) on thermoelectric properties of (Hf, Zr)-based n-type half-Heuslers: Hf[subscript 0.75−x]Ti[subscript x]Zr[subscript 0.25]NiSn[subscript 0.99]Sb[subscript 0.01], has been studied. The samples are made by arc melting followed by ball milling and hot pressing via the nanostructuring approach. A peak thermoelectric figure-of-merit (ZT) of ∼1.0 is achieved at 500 °C in samples with a composition of Hf[subscript 0.5]Zr[subscript 0.25]Ti[subscript 0.25]NiSn[subscript 0.99]Sb[subscript 0.01] due to a slight increase in carrier concentration and also a lower thermal conductivity caused by Ti. The ZT values below 500 °C of hot pressed Hf[subscript 0.5]Zr[subscript 0.25]Ti[subscript 0.25]NiSn[subscript 0.99]Sb[subscript 0.01] samples are significantly higher than those of the same way prepared Hf[subscript 0.75]Zr[subscript 0.25]NiSn[subscript 0.99]Sb[subscript 0.01] samples at each temperature, which are very much desired for mid-range temperature applications such as waste heat recovery in automobiles.

Date issued

2012-08

URI

http://hdl.handle.net/1721.1/108670

Department

Massachusetts Institute of Technology. Department of Mechanical Engineering

Journal

Nano Energy

Publisher

Elsevier

Citation

Joshi, Giri et al. “Enhancement of Thermoelectric Figure-of-Merit at Low Temperatures by Titanium Substitution for Hafnium in N-Type Half-Heuslers Hf[subscript 0.75−x]Ti[subscript x]Zr[subscript 0.25]NiSn[subscript 0.99]Sb[subscript 0.01].” Nano Energy 2.1 (2013): 82–87.

Version: Author's final manuscript

ISSN

22112855

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