Electronic Transport Properties of Te-doped CoSb3 Prepared by Encapsulated Induction Melting

Sn-doped CoSb 3 skutterudites (CoSb 3-y Sn y ) were prepared by encapsulated induction melting and their electronic transport properties were investigated. Carrier concentration increased with increasing the Sn doping content and the Sn dopant could affect the electronic structure of CoSb 3 and gene...

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Hauptverfasser:	Sin-Wook You, Kwan-Ho Park, Soon-Chul Ur, Il-Ho Kim
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Charge carriers Doping Electric resistance Impurities Induction generators Lattices Scattering Temperature Thermal conductivity Tin
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creator	Sin-Wook You Kwan-Ho Park Soon-Chul Ur Il-Ho Kim
description	Sn-doped CoSb 3 skutterudites (CoSb 3-y Sn y ) were prepared by encapsulated induction melting and their electronic transport properties were investigated. Carrier concentration increased with increasing the Sn doping content and the Sn dopant could affect the electronic structure of CoSb 3 and generate excess charge carriers (holes). However, carrier mobility decreased with increasing the doping content, which indicates that the hole mean free path was reduced by the impurity scattering. Seebeck coefficient decreased with increasing the carrier concentration. Electrical resistivity slightly decreased with increasing the carrier concentration because the carrier mobility was reduced by the impurity scattering as the carrier concentration increased. The lattice thermal conductivity was dominant in the Sn-doped CoSb 3 skutterudites. Seebeck coefficient showed a positive value at all temperatures examined and it increased as the temperature increased. Sn-doped CoSb 3 lies on the semimetallic range which confirms a highly degenerate semiconductor
doi_str_mv	10.1109/ICT.2006.331310
format	Conference Proceeding
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Carrier concentration increased with increasing the Sn doping content and the Sn dopant could affect the electronic structure of CoSb 3 and generate excess charge carriers (holes). However, carrier mobility decreased with increasing the doping content, which indicates that the hole mean free path was reduced by the impurity scattering. Seebeck coefficient decreased with increasing the carrier concentration. Electrical resistivity slightly decreased with increasing the carrier concentration because the carrier mobility was reduced by the impurity scattering as the carrier concentration increased. The lattice thermal conductivity was dominant in the Sn-doped CoSb 3 skutterudites. Seebeck coefficient showed a positive value at all temperatures examined and it increased as the temperature increased. 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Carrier concentration increased with increasing the Sn doping content and the Sn dopant could affect the electronic structure of CoSb 3 and generate excess charge carriers (holes). However, carrier mobility decreased with increasing the doping content, which indicates that the hole mean free path was reduced by the impurity scattering. Seebeck coefficient decreased with increasing the carrier concentration. Electrical resistivity slightly decreased with increasing the carrier concentration because the carrier mobility was reduced by the impurity scattering as the carrier concentration increased. The lattice thermal conductivity was dominant in the Sn-doped CoSb 3 skutterudites. Seebeck coefficient showed a positive value at all temperatures examined and it increased as the temperature increased. 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Carrier concentration increased with increasing the Sn doping content and the Sn dopant could affect the electronic structure of CoSb 3 and generate excess charge carriers (holes). However, carrier mobility decreased with increasing the doping content, which indicates that the hole mean free path was reduced by the impurity scattering. Seebeck coefficient decreased with increasing the carrier concentration. Electrical resistivity slightly decreased with increasing the carrier concentration because the carrier mobility was reduced by the impurity scattering as the carrier concentration increased. The lattice thermal conductivity was dominant in the Sn-doped CoSb 3 skutterudites. Seebeck coefficient showed a positive value at all temperatures examined and it increased as the temperature increased. Sn-doped CoSb 3 lies on the semimetallic range which confirms a highly degenerate semiconductor</abstract><pub>IEEE</pub><doi>10.1109/ICT.2006.331310</doi><tpages>4</tpages></addata></record>
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language	eng
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Charge carriers Doping Electric resistance Impurities Induction generators Lattices Scattering Temperature Thermal conductivity Tin
title	Electronic Transport Properties of Te-doped CoSb3 Prepared by Encapsulated Induction Melting
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