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A. Tkachuk, Yu. Gorelenko, Y. Stadnyk, O. Bodak (2001)
V–Mn–{Sn,Sb} ternary systemsJournal of Alloys and Compounds, 317
P. Villars, L. Calvert (1985)
Pearson's handbook of crystallographic data for intermetallic phases
J. Emsley (1994)
Die Elemente
岡本 博明 (2000)
Desk handbook phase diagrams for binary alloys
Y. Noda, M. Shimada, M. Koizumi (1979)
Synthesis of High-Pressure Phases of VCoSb and VFeSb with a Ni2In StructureInorg. Chem., 18
C. Lewis, Meitian Wang, A. Mar (2002)
Vanadium nickel antimonide, VNi0.26(2)SbActa Crystallographica Section E-structure Reports Online, 58
P. Villars (1997)
Pearson’s Handbook Desk Edition: Crystallographic Data for Intermetallic Phases
C. Evers, Carolin Richter, Klaus Hartjes, W. Jeitschko (1997)
Ternary transition metal antimonides and bismuthides with MgAgAs-type and filled NiAs-type structure 1 Dedicated to Professor Riccardo Ferro on the occasion of his 70th birthday. 1Journal of Alloys and Compounds
M. Armbrüster, G.R. Cardoso, U. Burkhardt, Yu. Grin (2004)
Refinement of the Crysal Structures of Titanium Diantimonide, TiSb2, Vanadium Diantimonide, V0.96Sb2Z. Kristallogr., 219
C.B.H. Evers, C.G. Richter, K. Hartjes, W. Jeitschko (1997)
Ternary Transition Metal Antimonides and Bismuthides with MgAgAs Type and Filled NiAs-Type StructureJ. Alloys Compd., 252
Yu.B. Kuz’ma, Ya.F. Lomnytska, V.V. Sapovskii (1981)
Phase Relations in the System V-Ni-PIzv. Akad. Nauk SSSR, Neorg. Mater., 17
Y. Noda, M. Shimada, M. Koizumi (1979)
SYNTHESIS OF HIGH-PRESSURE PHASES OF VANADIUM-COBALT-ANTIMONY (VCOSB) AND VANADIUM-IRON-ANTIMONY (VFESB) WITH A DINICKEL-INDIUM (NI2IN) (B82) TYPE STRUCTUREChemInform, 11
Phase relations in the V-Ni-Sb system have been studied by x-ray diffraction, and the 1070-K section of its phase diagram has been constructed in the region 0–67 at % Sb. The VSb phase (NiAs structure) is shown to have a homogeneity range: V1.04–1.00Sb0.96–1.00 (a = 0.4274(1)–0.4266(2) nm, c = 0.5464(2)–0.5448(4) nm). The binary antimonides with the NiAs structure dissolve the third component. V solubility in NiSb is within 3.5 at %. Ni dissolution in VSb is accompanied by partial Ni substitution for V and Ni incorporation into position 2d of space group P63/mmc, up to the composition V0.84Ni0.32Sb0.84 (a = 0.42187(6) nm, c = 0.54000(9) nm).
Inorganic Materials – Springer Journals
Published: Jun 28, 2007
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