6533b821fe1ef96bd127b61c
RESEARCH PRODUCT
Synthesis and Crystal Structure of a Novel Lamellar Barium Derivative: Ba(VOPO4)2·4H2O. Synthetic Pathways for Layered Oxovanadium Phosphate Hydrates M(VOPO4)2·nH2O
† And Aurelio Beltrán-porterJ. AlamoDaniel Beltrán-porterPedro AmorósManuel RocaM. Dolores Marcossubject
Inorganic ChemistryPartial chargeCrystallographyValence (chemistry)chemistryBond valence methodchemistry.chemical_elementLamellar structureBariumCrystal structurePhysical and Theoretical ChemistrySingle crystalMonoclinic crystal systemdescription
A unified synthetic strategy has allowed us to rationalize the preparative chemistry of the layered oxovanadium phosphates M(VOPO4)2·nH2O. Thus, we have been able to isolate as single phases with reasonable yields both all the previously characterized phosphates and a new solid containing Ba2+ cations as guest species as well as to prepare new related derivatives involving arsenate anions. In order to organize the experimental results, we have used two complementary models: a simple restatement of the partial charge model (PCM), and the valence matching principle (VMP) (derived from the bond valence method). The crystal structure of the new barium lamellar derivative, Ba(VOPO4)2·4H2O, has been solved from X-ray single crystal data. The cell is monoclinic (space group Pn; Z = 1) with a = 6.3860(3) A, b = 12.7796(9) A, c = 6.3870(5) A, and β = 90.172(6)°. Its structure, like it occurs with the other members of the M(VOPO4)2·nH2O family, can be thought of as derived from that of the well-known lamellar soli...
| year | journal | country | edition | language |
|---|---|---|---|---|
| 1997-07-01 | Inorganic Chemistry |