Electrical, thermal, and species transport properties of liquid eutectic Ga-In and Ga-In-Sn from first principles

Using ab initio molecular dynamics, the atomic structure and transport properties of eutectic Ga-In and Ga-In-Sn are investigated. The Kubo-Greenwood (K-G) and the Ziman-Faber (Z-F) formulations and the Wiedemann-Franz (W-F) law are used for the electrical and electronic thermal conductivity. The sp...

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Veröffentlicht in:	The Journal of chemical physics 2014-02, Vol.140 (6), p.064303-064303
Hauptverfasser:	Yu, Seungho, Kaviany, Massoud
Format:	Artikel
Sprache:	eng
Schlagworte:	Alloying Atomic structure Diffusivity ELECTRIC CONDUCTIVITY Electrical resistivity EUTECTICS First principles Formulations Heat conductivity Heat transfer INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY LIQUIDS Melt temperature MELTING POINTS Molecular dynamics MOLECULAR DYNAMICS METHOD Molecular structure Species diffusion THERMAL CONDUCTIVITY Transport properties VISCOSITY
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container_title	The Journal of chemical physics
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creator	Yu, Seungho Kaviany, Massoud
description	Using ab initio molecular dynamics, the atomic structure and transport properties of eutectic Ga-In and Ga-In-Sn are investigated. The Kubo-Greenwood (K-G) and the Ziman-Faber (Z-F) formulations and the Wiedemann-Franz (W-F) law are used for the electrical and electronic thermal conductivity. The species diffusivity and the viscosity are also predicted using the mean square displacement and the Stokes-Einstein (S-E) relation. Alloying Ga causes more disordered structure, i.e., broadening the atomic distance near the In and Sn atoms, which reduces the transport properties and the melting temperature. The K-G treatment shows excellent agreement with the experimental results while Z-F treatment formula slightly overestimates the electrical conductivity. The predicted thermal conductivity also shows good agreement with the experiments. The species diffusivity and the viscosity are slightly reduced by the alloying of Ga with In and Sn atoms. Good agreements are found with available experimental results and new predicted transport-property results are provided.
doi_str_mv	10.1063/1.4865105
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The Kubo-Greenwood (K-G) and the Ziman-Faber (Z-F) formulations and the Wiedemann-Franz (W-F) law are used for the electrical and electronic thermal conductivity. The species diffusivity and the viscosity are also predicted using the mean square displacement and the Stokes-Einstein (S-E) relation. Alloying Ga causes more disordered structure, i.e., broadening the atomic distance near the In and Sn atoms, which reduces the transport properties and the melting temperature. The K-G treatment shows excellent agreement with the experimental results while Z-F treatment formula slightly overestimates the electrical conductivity. The predicted thermal conductivity also shows good agreement with the experiments. The species diffusivity and the viscosity are slightly reduced by the alloying of Ga with In and Sn atoms. 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The Kubo-Greenwood (K-G) and the Ziman-Faber (Z-F) formulations and the Wiedemann-Franz (W-F) law are used for the electrical and electronic thermal conductivity. The species diffusivity and the viscosity are also predicted using the mean square displacement and the Stokes-Einstein (S-E) relation. Alloying Ga causes more disordered structure, i.e., broadening the atomic distance near the In and Sn atoms, which reduces the transport properties and the melting temperature. The K-G treatment shows excellent agreement with the experimental results while Z-F treatment formula slightly overestimates the electrical conductivity. The predicted thermal conductivity also shows good agreement with the experiments. The species diffusivity and the viscosity are slightly reduced by the alloying of Ga with In and Sn atoms. 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The Kubo-Greenwood (K-G) and the Ziman-Faber (Z-F) formulations and the Wiedemann-Franz (W-F) law are used for the electrical and electronic thermal conductivity. The species diffusivity and the viscosity are also predicted using the mean square displacement and the Stokes-Einstein (S-E) relation. Alloying Ga causes more disordered structure, i.e., broadening the atomic distance near the In and Sn atoms, which reduces the transport properties and the melting temperature. The K-G treatment shows excellent agreement with the experimental results while Z-F treatment formula slightly overestimates the electrical conductivity. The predicted thermal conductivity also shows good agreement with the experiments. The species diffusivity and the viscosity are slightly reduced by the alloying of Ga with In and Sn atoms. Good agreements are found with available experimental results and new predicted transport-property results are provided.</abstract><cop>United States</cop><pub>American Institute of Physics</pub><pmid>24527911</pmid><doi>10.1063/1.4865105</doi><tpages>1</tpages></addata></record>
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subjects	Alloying Atomic structure Diffusivity ELECTRIC CONDUCTIVITY Electrical resistivity EUTECTICS First principles Formulations Heat conductivity Heat transfer INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY LIQUIDS Melt temperature MELTING POINTS Molecular dynamics MOLECULAR DYNAMICS METHOD Molecular structure Species diffusion THERMAL CONDUCTIVITY Transport properties VISCOSITY
title	Electrical, thermal, and species transport properties of liquid eutectic Ga-In and Ga-In-Sn from first principles
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