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Roger, J., Ben Yahia, M., Babizhetskyy, V., Bauer, J., Cordier, S., Guerin, R., Hiebl, K., Rocquefelte, X., Saillard, J.-Y. & Halet, J.-F. (2006) Mn5Si3-type host-interstitial boron rare-earth metal silicide compounds RE5Si3: Crystal structures, physical properties and theoretical considerations. J. Solid State Chem. 179 2310–2328. 
Added by: Florent Boucher (2016-05-12 13:21:36)
Type de référence: Article
DOI: 10.1016/j.jssc.2006.04.023
Numéro d'identification (ISBN etc.): 0022-4596
Clé BibTeX: Roger2006
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Catégories: MIOPS
Mots-clés: augmented-wave method, basis-set, boron insertion, crystal structure, Density functional calculations, electrical resistivity, gd, germanium, initio molecular-dynamics, lattice, Magnetic properties, magnetic-properties, Mn3Si5-type phases, phases, rare-earth metal silicides, system, total-energy calculations
Créateurs: Babizhetskyy, Bauer, Ben Yahia, Cordier, Guerin, Halet, Hiebl, Rocquefelte, Roger, Saillard
Collection: J. Solid State Chem.
Consultations : 4/397
Indice de consultation : 2%
Indice de popularité : 0.5%
Résumé     
{A series of binary rare-earth metal silicides RE5Si3 and ternary boron-interstitial phases RE5Si3B, (RE = Gd, Dy, Ho, Lu, and Y) adopting the Mn5Si3-type structure, have been prepared from the elemental components by arc melting. Boron "stuffed" phases were subsequently heated at 1750 K within a high-frequency furnace. Crystal structures were determined for both binary and ternary series of compounds from single-crystal X-ray data: hexagonal symmetry, space group P6(3)/MCM
Added by: Florent Boucher  
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