Electronic and Local Crystal Structures of the ZrNiSn Half-Heusler Thermoelectric Material

Hidetoshi Miyazaki; Teruaki Nakano; Manabu Inukai; Kazuo Soda; Yudai Izumi; Takayuki Muro; Jungeun Kim; Masaki Takata; Masaharu Matsunami; Shin-ichi Kimura; Yoichi Nishino

doi:10.2320/matertrans.E-M2014803

Hidetoshi Miyazaki, Teruaki Nakano, Manabu Inukai, Kazuo Soda, Yudai Izumi, Takayuki Muro, Jungeun Kim, Masaki Takata, Masaharu Matsunami, Shin-ichi Kimura, Yoichi Nishino

Author information

Hidetoshi Miyazaki
Center for Fostering Young and Innovative Researchers, Nagoya Institute of Technology
Teruaki Nakano
Department of Frontier Materials, Nagoya Institute of Technology
Manabu Inukai
Department of Frontier Materials, Nagoya Institute of Technology
Kazuo Soda
Department of Quantum Engineering, Graduate School of Engineering, Nagoya University
Yudai Izumi
Japan Synchrotron Radiation Research Institute (JASRI)
Takayuki Muro
Japan Synchrotron Radiation Research Institute (JASRI)
Jungeun Kim
Japan Synchrotron Radiation Research Institute (JASRI)
Masaki Takata
RIKEN SPring-8 Center
Masaharu Matsunami
UVSOR Facility, Institute for Molecular Science (IMS)
School of Physical Sciences, The Graduate University for Advanced Studies (SOKENDAI)
Shin-ichi Kimura
UVSOR Facility, Institute for Molecular Science (IMS)
School of Physical Sciences, The Graduate University for Advanced Studies (SOKENDAI)
Yoichi Nishino
Department of Frontier Materials, Nagoya Institute of Technology

Keywords: thermoelectric material, half-Heusler alloy, zirconium nickel tin compound, X-ray diffraction, photoemission spectroscopy, electronic band structure calculation

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2014 Volume 55 Issue 8 Pages 1209-1214

DOI https://doi.org/10.2320/matertrans.E-M2014803

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Abstract

We investigated the electronic and local crystal structures of the sintered half-Heusler ZrNiSn alloy by synchrotron radiation photoemission spectroscopy (SR-PES), synchrotron radiation X-ray powder diffraction (SR-XRD) measurements, and electronic band structure calculations to clarify mechanisms leading to improvements in the thermoelectric properties of materials. In contrast to the predicted semiconductor-like electronic structure, the SR-PES results show a pseudo-gap at the Fermi level, and the SR-XRD analysis reveals an interstitial Ni disorder in the half-Heusler structure. An improvement in the thermoelectric properties can be achieved by material design based on the pseudo-gap electronic structure of half-Heusler ZrNiSn-based alloys.

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