A large family of filled skutterudites stabilized by electron count

The Zintl concept is important in solid-state chemistry to explain how some compounds that combine electropositive and main group elements can be stable at formulas that at their simplest level do not make any sense. The electronegative elements in such compounds form a polyatomic electron-accepting...

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Veröffentlicht in:	Nature communications 2015-03, Vol.6 (1), p.6489-6489, Article 6489
Hauptverfasser:	Luo, Huixia, Krizan, Jason W., Muechler, Lukas, Haldolaarachchige, Neel, Klimczuk, Tomasz, Xie, Weiwei, Fuccillo, Michael K., Felser, Claudia, Cava, Robert J.
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Schlagworte:	140/133 140/146 142/126 639/301/1034/1038 639/301/119/997 639/638/263/915 Humanities and Social Sciences Metals multidisciplinary Physical properties Science Science (multidisciplinary)
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creator	Luo, Huixia Krizan, Jason W. Muechler, Lukas Haldolaarachchige, Neel Klimczuk, Tomasz Xie, Weiwei Fuccillo, Michael K. Felser, Claudia Cava, Robert J.
description	The Zintl concept is important in solid-state chemistry to explain how some compounds that combine electropositive and main group elements can be stable at formulas that at their simplest level do not make any sense. The electronegative elements in such compounds form a polyatomic electron-accepting molecule inside the solid, a ‘polyanion’, that fills its available energy states with electrons from the electropositive elements to obey fundamental electron-counting rules. Here we use this concept to discover a large family of filled skutterudites based on the group 9 transition metals Co, Rh, and Ir, the alkali, alkaline-earth, and rare-earth elements, and Sb 4 polyanions. Forty-three new filled skutterudites are reported, with 63 compositional variations—results that can be extended to the synthesis of hundreds of additional new compounds. Many interesting electronic and magnetic properties can be expected in future studies of these new compounds. Skutterudites are a family of materials whose properties make them appealing for studying thermoelectric, magnetic, heavy-fermion and superconducting effects, among many others. Through a combination of theoretical and experimental approaches, this study identifies 43 new skutterudite compounds.
doi_str_mv	10.1038/ncomms7489
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The electronegative elements in such compounds form a polyatomic electron-accepting molecule inside the solid, a ‘polyanion’, that fills its available energy states with electrons from the electropositive elements to obey fundamental electron-counting rules. Here we use this concept to discover a large family of filled skutterudites based on the group 9 transition metals Co, Rh, and Ir, the alkali, alkaline-earth, and rare-earth elements, and Sb 4 polyanions. Forty-three new filled skutterudites are reported, with 63 compositional variations—results that can be extended to the synthesis of hundreds of additional new compounds. Many interesting electronic and magnetic properties can be expected in future studies of these new compounds. Skutterudites are a family of materials whose properties make them appealing for studying thermoelectric, magnetic, heavy-fermion and superconducting effects, among many others. 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subjects	140/133 140/146 142/126 639/301/1034/1038 639/301/119/997 639/638/263/915 Humanities and Social Sciences Metals multidisciplinary Physical properties Science Science (multidisciplinary)
title	A large family of filled skutterudites stabilized by electron count
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