Crystal Chemistry of Synthetic M(2+)Be2P2O8 (M(2+) = Ca, Sr, Pb, Ba) Beryllophosphates

Dal Bo, Fabrice; Hatert, Frédéric; Baijot, Maxime

doi:10.3749/canmin.52.2.337

Download

Article (Scientific journals)

Crystal Chemistry of Synthetic M(2+)Be2P2O8 (M(2+) = Ca, Sr, Pb, Ba) Beryllophosphates

Dal Bo, Fabrice; Hatert, Frédéric; Baijot, Maxime

2014 • In Canadian Mineralogist, 52 (2), p. 337-350

Peer Reviewed verified by ORBi

Permalink
https://hdl.handle.net/2268/171218

DOI
10.3749/canmin.52.2.337

Files (1)Send to Details Statistics Bibliography Similar publications

Files

Full Text

337.full.pdf

Publisher postprint (2.1 MB)

Download

All documents in ORBi are protected by a user license.

Send to

RIS BibTex APA Chicago Permalink X Linkedin

Details

Keywords :

beryllophosphates; hydrothermal synthesis; crystal chemistry

Disciplines :

Earth sciences & physical geography

Author, co-author :

Dal Bo, Fabrice ; Université de Liège - ULiège > Département de géologie > Minéralogie et cristallochimie

Hatert, Frédéric ; Université de Liège - ULiège > Département de géologie > Minéralogie et cristallochimie

Baijot, Maxime ; Université de Liège - ULiège > Département de géologie > Minéralogie et cristallochimie

Language :

English

Title :

Crystal Chemistry of Synthetic M(2+)Be2P2O8 (M(2+) = Ca, Sr, Pb, Ba) Beryllophosphates

Publication date :

April 2014

Journal title :

Canadian Mineralogist

ISSN :

0008-4476

eISSN :

1499-1276

Publisher :

Mineralogical Association of Canada, Canada

Special issue title :

Pegmatitic Phosphate: A Tribute to François Fontan, André-Mathieu Fransolet and Paul Keller

Volume :

Issue :

Pages :

337-350

Peer reviewed :

Peer Reviewed verified by ORBi

Available on ORBi :

since 11 August 2014

Statistics

Number of views

119 (5 by ULiège)

Number of downloads

5 (1 by ULiège)

More statistics

Scopus citations^®

Scopus citations^®
without self-citations

OpenCitations

Bibliography

AGILENT (2012) CrysAlis PRO. Agilent Technologies, Yarnton, Oxfordshire, England.
BAUR, H.W. (1974) The geometry of polyhedral distortions. Predictive relationships for the phosphate group. Acta Crystallographica B30, 1195-1215.
BENNA, P., TRIBAUDINO, M., & BRUNO, E. (1996). The structure of ordered and disordered lead feldspar (PbAl2Si2O8). American Mineralogist 81, 1337-1343.
BROWN, I.D. & ALTERMATT, D. (1985) Bond-valence parameters obtained from a systematic analysis of the Inorganic Crystal Structure Database. Acta Crystallographica B41, 244-247.
CALLERI, M. & GAZZONI, G. (1976) The structure of (Sr,Ba) [(Al,Ga)2(Si,Ge)2O8]. III. The crystal structures of the par-acelsian-like modifications of synthetic SrGa2Ge2O8 and BaGa2Ge2O8. Acta Crystallographica B32, 1196-1205.
ČERNÝ, P. (2002) Mineralogy of beryllium in granitic pegmatites. In Beryllium: Mineralogy, Petrology, and Geo-chemistry (E.S. Grew, ed.). Reviews in Mineralogy and Geochemistry 50, 405-444.
CHESNOKOV, B.V., LOTOVA, E.V., NIGMATULLINA, E.N., PAVLUTCHENKO, V.S., & BUSHMAKIN, A.F. (1990) Dmisteinbergite, CaAl2Si2O8, (hexagonal), a new mineral. Zapiski Vsesoyuznogo Mineralogicheskogo Obshchestva 119, 43-46 (in Russian).
FARMER, V.C. (1974) The infrared spectra of minerals. Mineralogical Society Monographs 4, 539.
FOIT, F.F., PHILLIPS, M.W., & GIBBS, G.V. (1973) A refinement of the crystal structure of datolite, CaBSiO4(OH). American Mineralogist 58, 909-914.
GRIGORIEV, N.A. (1963) Glucine, a new beryllium mineral. Zapiski Vsesoyuznogo Mineralogicheskogo Obshchestva 92, 691-696 (in Russian).
HANSEN, S., FÄLTH, L., & JOHNSON, O. (1984) Bergslagite, a mineral with tetrahedral berylloarsenate sheet anions. Zeitschrift für Kristallographie 166, 73-80.
HARVEY, G. & MEIER, W.M. (1989) The synthesis of beryllophosphate zeolites. In Zeolites: Facts, Figures, Future (P.A. Jacops & R.A. van Santen, eds.). Elsevier, Amsterdam, Netherlands.
HATERT, F. (2008) The crystal chemistry of the divalent cation in alluaudite-type phosphates: A structural and infrared spectral study of the Na1.5(Mn1-xM2+x)1.5Fe1.5(PO4)3 solid solutions (x = 0 to 1, M2+ = Cd2+, Zn2+). Journal of Solid State Chemistry 181, 1258-1272.
HATERT, F., HERMANN, R.P., LONG, G.J., FRANSOLET, A.-M., & GRANDJEAN, F. (2003) An X-ray Rietveld, infrared, and Mössbauer spectral study of the NaMn(Fe1-xInx)2(PO4)3 alluaudite-like solid solution. American Mineralogist 88, 211-222.
HATERT, F., REBBOUH, L., HERMANN, R.P., FRANSOLET, A.-M., L ONG, G.J., & GRANDJEAN, F. (2005a) Crystal chemistry of the hydrothermally synthesized Na2(Mn1-xFe2+x)2Fe3+ (PO4)3 alluaudite-type solid solution. American Mineralogist 90, 653-662.
HATERT, F., LEFEVRE, P., FRANSOLET, A.-M., SPIRLET, M.-R., R EBBOUH, L., FONTAN, F., & KELLER, P. (2005 b) Ferrorosemaryite, NaFe 2+ Fe3+Al(PO4)3, a new phosphate mineral from the Rubindi pegmatite, Rwanda. European Journal of Mineralogy 17, 749-759.
HATERT, F., HERMANN, R.P., FRANSOLET, A.-M., LONG, G.J., & GRANDJEAN, F. (2006) A structural, infrared, and Mössbauer spectral study of rosemaryite, NaMnFe3+Al(PO4)3. European Journal of Mineralogy 18, 775-785.
HAWTHORNE, F.C. & HUMINICKI, D. (2002) The crystal chemistry of beryllium. In Beryllium: Mineralogy, Petrelogy, and Geochemistry (E.S. Grew, ed.). Reviews in Mineralogy and Geochemistry 50, 333-403.
ICDD (2012) WebPDF-4+. International Centre for Diffraction Data, Newtown Square, Pennsylvania, USA.
KACIMI, M., ZIYAD, M., & HATERT, F. (2005) Structural features of AgCaCdMg2(PO4)3 and AgCd2Mg2(PO4)3, two new compounds with the alluaudite-type structure, and their catalytic activity in butan-2-ol conversion. Materials Research Bulletin 40, 682-693.
KAMPF, A.R. (1992) Beryllophosphate chains in the structure of fransoletite, parafransoletite, and ehrleite and some general comments on beryllophosphate linkages. American Mineralogist 77, 848-856.
KAMPF, A.R ., DUNN, P.J., & FOORD, E.E. (1992) Parafransoletite, a new dimorph of fransoletite from the Tip Top Pegmatite, Custer, South Dakota. American Mineralogist 77, 843-847.
KRIVOVICHEV, S.V. & BROWN, I.D. (2001) Are the compressive effects of encapsulation an artifact of the bound valence parameters? Zeitschrift für Kristallographie 216, 245-247.
LINDBERG, M.L. & MURATA, K.J. (1953) Faheyite, a new phosphate mineral from the Sapucaia pegmatite mine, Minas Gerais, Brazil. American Mineralogist 38, 263-270.
LINDBLOOM, J.T., GIBBS, G.V., & RIBBE, P.H. (1974) The crystal structure of hurlbutite: A comparison with danburite and anorthite. American Mineralogist 59, 1267-1271.
LUCAS, F., ELFAKIR, A., WALLEZ, G., QUARTON, M., & LAGACHE, M. (1998) Synthesis and rietveld refinement of new phosphate and arsenate analogues of paracelsian. Canadian Mineralogist 36, 1045-1051.
NEDIC, B., KREMENOVIC, A., DIMITRIJEVIC, R., & DONDUR, V. (2008) Crystal structures of Sr-diphylloalumosilicates synthesized from LTA and FAU zeolites. Solid State Sciences 10, 154-159.
PAUTOV, L.A., AGAKHANOV, A.A., SOKOLOVA, E., & HAWTHORNE, F.C. (2004) aleevite, BaB2Si2O8, and pekovite, SrB2Si2O8, new mineral species from the Dara-i-Pioz alkaline massif, northern Tajikistan: Description and crystal structure. Canadian Mineralogist 42, 107-119.
PEACOR, D.R., ROUSE, R.C., & AHN, J.H. (1987) Crystal structure of tiptopite, a framework beryllophosphate isotypic with basic cancrinite. American Mineralogist 72, 816-820.
PHILLIPS, M.W., GIBBS, G.V., & RIBBE, P.H. (1974) The crystal structure of danburite: A comparison with anorthite, albite, reedmergnerite. American Mineralogist 59, 79-85.
PHILLIPS, M.W., KROLL, H., PENTINGHAUS, H., & RIBBE, P.H. (1975) The structures of synthetic paracelsian analogs, SrGa2Si2O8 and SrGa2Ge2O8 American Mineralogist 60, 659-666.
PLUTH, J.J. & SMITH, J.V. (1972) Positions of cations and molecules in zeolites with the faujasite-type framework VII. Dehydrated Ca-exchanged X. Materials Research Bulletin 7, 1311-1322.
RAO, C., WANG, R., GU, X., HU, H., & DONG, C. (2012) Strontiohurlbutite, IMA 2012-032. CNMNC Newsletter 14, 1285; Mineralogical Magazine 76, 1281-1288.
RAO, C., HATERT, F., WANG, R.C., GU, X.P., DAL BO, F., & DONG, C.W. (2013) Minjiangite, IMA 2013-021. CNMNC Newsletter 16, 2705. Mineralogical Magazine 77, 2695-2709.
RAO, C., HATERT, F., WANG, R.C., GU, X.P., DAL BO, F., & DONG, C.W. (2014) Minjiangite, Ba[Be2P2O8], a new mineral from Nanping No. 31 pegmatite, Fujian Province, Southeastern China. American Mineralogist, submitted.
RONDEUX, M. & HATERT, F. (2010) An X-ray Rietveld and infrared spectral study of the Na2(Mn1-xM2+x) Fe2+Fe3+(PO4)3(x = 0 to 1, M2+ = Mg, Cd) alluaudite-type solid solutions. American Mineralogst 95, 844-852.
SHANNON, R.D. (1976) Revised effective ionic radii and systematic studies of interatomic distances in halides and chalcogenides. Acta Crystallographica A32, 751-767.
SHELDRICK, G.M. (2008) A short history of SHELX . Acta Crystallographica A64, 112-122.
SMITH, J.V. (1953) The crystal structure of paracelsian, BaAl-2Si2O8. Acta Crystallographica 6, 613-620.
SMITH, J.V. & RINALDI, F. (1962) Framework structures formed from parallel four- and eight-membered rings. Mineralogical Magazine 33, 202-212.
TAKÉUCHI, Y. (1958) A detailed investigation of the structure of hexagonal BaAl2Si2O8 with reference to its α-β inversion. Mineralogical Journal 2, 311-332.
TAKÉUCHI, Y. & DONNAY, G. (1959) The crystal structure of hexagonal CaAl2Si2O8. Acta Crystallographica 12, 465-470.
TUTTLE, O.F. (1949) Two pressure vessels for silicate-water studies. Geological Society of America Bulletin 60, 1727-1729.
WILSON, A.J.C. (1992) International Tables for X-ray Crystallography, Volume C . Kluwer Academic Press, London, 883pp.