Breaking the Zintl rule : High-pressure synthesis of binary EuSi6 and its ternary derivative EuSi6-xGax (0 ≤ x ≤ 0.6)

The new metastable binary europium silicide EuSi6 and its ternary derivative EuSi6-xGax (x=0-0.60) were prepared by applying a pressure of 8 GPa and a temperature of 1520 K. Single crystal and powder diffraction data refinements reveal that the compounds crystallize orthorhombic (space group Cmcm, a...

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Veröffentlicht in:	Solid state sciences 2006-07, Vol.8 (7), p.773-781
Hauptverfasser:	WOSYLUS, Aron, PROTS, Yurii, BURKHARDT, Ulrich, SCHNELLE, Walter, SCHWARZ, Ulrich, GRIN, Yuri
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Sprache:	eng
Schlagworte:	Alloys Condensed matter: structure, mechanical and thermal properties Exact sciences and technology High-pressure and shock-wave effects in solids and liquids Mechanical and acoustical properties of condensed matter Physics Structure of solids and liquids crystallography Structure of specific crystalline solids
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container_title	Solid state sciences
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creator	WOSYLUS, Aron PROTS, Yurii BURKHARDT, Ulrich SCHNELLE, Walter SCHWARZ, Ulrich GRIN, Yuri
description	The new metastable binary europium silicide EuSi6 and its ternary derivative EuSi6-xGax (x=0-0.60) were prepared by applying a pressure of 8 GPa and a temperature of 1520 K. Single crystal and powder diffraction data refinements reveal that the compounds crystallize orthorhombic (space group Cmcm, a=4.4489(3)A, b=10.2229(7)A, c=11.6160(5)A for EuSi6) and are isotypic to EuGa2Ge4. Analysis of the chemical bonding with the electron localization function reveals a covalently-bonded polyanion of four-bonded silicon atoms with embedded europium cations according to the electron balance Eu2+[SiO]62e-. The excess electrons are found in the basins of SiSi bonds. In the electronic density of states they are assigned to a filling of the antibonding states. In agreement with the picture of the chemical bonding, EuSi6 is a bad metallic conductor ( at 300 K). Magnetization measurements demonstrate that europium is stable divalent with the 4f7 configuration. EuSi6 shows an antiferromagnetic ordering at 11.2 K and two further transitions between magnetically ordered phases below that temperature. Specific heat data confirm the magnetic ground state and the phase transitions.
doi_str_mv	10.1016/j.solidstatesciences.2006.04.003
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Single crystal and powder diffraction data refinements reveal that the compounds crystallize orthorhombic (space group Cmcm, a=4.4489(3)A, b=10.2229(7)A, c=11.6160(5)A for EuSi6) and are isotypic to EuGa2Ge4. Analysis of the chemical bonding with the electron localization function reveals a covalently-bonded polyanion of four-bonded silicon atoms with embedded europium cations according to the electron balance Eu2+[SiO]62e-. The excess electrons are found in the basins of SiSi bonds. In the electronic density of states they are assigned to a filling of the antibonding states. In agreement with the picture of the chemical bonding, EuSi6 is a bad metallic conductor ( at 300 K). Magnetization measurements demonstrate that europium is stable divalent with the 4f7 configuration. EuSi6 shows an antiferromagnetic ordering at 11.2 K and two further transitions between magnetically ordered phases below that temperature. 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subjects	Alloys Condensed matter: structure, mechanical and thermal properties Exact sciences and technology High-pressure and shock-wave effects in solids and liquids Mechanical and acoustical properties of condensed matter Physics Structure of solids and liquids crystallography Structure of specific crystalline solids
title	Breaking the Zintl rule : High-pressure synthesis of binary EuSi6 and its ternary derivative EuSi6-xGax (0 ≤ x ≤ 0.6)
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