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On the Existence of Bi6.67O4(XO4)4 and PbBi6O4(XO4)4 (X=P,V, and As)

✍ Scribed by Sophie Giraud; Michel Drache; Pierre Conflant; Jean Pierre Wignacourt; Hugo Steinfink

Publisher
Elsevier Science
Year
2000
Tongue
English
Weight
518 KB
Volume
154
Category
Article
ISSN
0022-4596

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✦ Synopsis

PbBi6O4 (PO4)4 obtained at room temperature is isomorphous with the high-temperature phase Bi6.67O4 (PO4)4. The Pb atom replaces 0.67 Bi in the same crystallographic site. The vanadate and arsenate with the composition PbBi6O4(XO4)4 were synthesized and yielded isomorphic phases at room temperature. All three compounds adopt a triclinic cell, space group P1 , Z‫.1؍‬ The structure re5nement of PbBi6O4 (PO4)4 was performed using the Rietveld method on X-ray powder di4raction data. The starting parameters were the atomic positions of Bi6.67O4 (PO4)4. Conductivity measurements were made from 3003C to 8003C on samples of the three homologues. The highest conductivity was observed for the vanadate. Attempts to synthesize the binary vanadate and arsenate compounds isostructural with the hightemperature phase Bi6.67O4 (PO4)4 were unsuccessful. 2000 Academic Press

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Synthesis and Crystal Structure of Bi6.67(PO4)4O4Oxyphosphate: The Bi6M2+(PO4)4O4and Bi6.5A+0.5(PO4)4O4Series
✍ Mustafa Ketatni; Olivier Mentre; Francis Abraham; Fouzia Kzaiber; Bouchaı̈b Mern πŸ“‚ Article πŸ“… 1998 πŸ› Elsevier Science 🌐 English βš– 343 KB

Single crystals of a new bismuth oxyphosphate were isolated and X-ray investigated, leading to the formula Bi 6.67 (PO 4 ) 4 O 4 . Its crystal structure was refined using 2624 independent reflections in the P1 space group, a ‫؍‬ 9.195(15) A s , b ‫؍‬ 7.552(5) A s , c ‫؍‬ 6.933(4) A s , ‫؍‬ 112.2(1)Β°