Volume 13
Main Index

Issues 1–2, Pgs 1-163, (February, 1975)

Magnetic behavior and infrared spectra of jarosite, basic iron sulfate, and their chromate analogs Pages 1-13 Dana A. Powers, George R. Rossman, Harvey J. Schugar, Harry B. Gray

Magnetic susceptibility of the uranium nitrides Pages 14-23 Robert Troć

Optical and electronic properties of some new rare earth-doped lead sodium apatites Pages 24-31 L.H. Brixner, P.E. Bierstedt

The oxidation state of iron in some Ba-Fe-S phases: A Mössbauer and electrical resistivity investigation of Ba2FeS3, Ba7Fe6S14, Ba6Fe8S15, BaFe2S3, and Ba9Fe16S32 Pages 32-40 W.M. Reiff, I.E. Grey, A. Fan, Z. Eliezer, H. Steinfink

Etude par effet Mössbauer de la structure et des propriétés de diffusion de la phase antifluorine nonstoechiométrique: $Li8SnP4$ Pages 41-48 J.P. Motte, N.N. Greenwood

Single crystal structure study of α-Ag2HgI4: Evidence for anharmonic vibration Pages 49-56 J.S. Kasper, K.W. Browall

Etude de nouveaux oxydes ternaires d'europium divalent, de type bronze oxygéné de tungstène quadratique et de type pérovskite Pages 57-64 Jean-Paul Fayolle, Francis Studer, Gilbert Desgardin, Bernard Raveau

Etude structurale des systèmes Ln2S3-GeS2 Pages 65-76 Annick Michelet, Alain Mazurier, Gaston Collin, Pierre Laruelle, Jean Flahaut

Magnetic ordering in Ba2MnReO6 Pages 77-83 C.P. Khattak, D.E. Cox, F.F.Y. Wang

Mössbauer and X-ray studies of Fe5PB2 Pages 84-91 Lennart Häggström, Roger Wäppling, Tore Ericsson, Yvonne Andersson, Stig Rundqvist

Influence de la substitution du fer sur les propriétés magnétiques des solutions solides Ca2Fe2−xMxO5 (M = Al, Sc, Cr, Co, Ga) Pages 92-98 Jean-Claude Grenier, Michel Pouchard, Paul Hagenmuller

Etude cristallographique et magnétique de la solution solide Fe2−2xNi1+xSnxO4 Pages 99-106 Catherine Djega-Mariadassou, Françoise Basile, Paul Poix

Some thermodynamic properties in spinel solid solutions with the Fe3O4 component Pages 107-113 Takashi Katsura, Masataka Wakihara, Shin-Ichi Hara, Tadashi Sugihara

The NiAs-MnP phase transition in VS Pages 114-117 H.F. Franzen, G.A. Wiegers

Nonstoichiometric phases in the Sn-Nb-O and Sn-Ta-O systems having pyrochlore-related structures Pages 118-130 T. Birchall, A.W. Sleight

New AIIIBIIIO3 interlanthanide perovskite compounds Pages 131-135 U. Berndt, D. Maier, C. Keller

Neutronenbeugungsuntersuchungen an (SE0·5U0·5)O2 (SE = Y, La, Nd, Ho, und Lu) Pages 136-141 H. Weitzel, C. Keller

Stéréochimie des eléments comportant des paires non liées: Ge (II), As (III), Se (IV), Br (V), Sn (II), Sb (III), Te (IV), I (V), Xe (VI), Tl (I), Pb (II), et Bi (III) (oxydes, fluorures et oxyfluorures) Pages 142-159 Jean Galy, Georges Meunier, Sten Andersson, Anders Åström

Ultramicrostructural characteristics of some intercalates of graphite: An electron microscopic study: E. L. Evans and J. M. Thomas. Edward Davies Chemical Laboratories, The University College of Wales, Aberystwyth, SY23 1NE, United Kingdom Page 160

The structure of defect Ru4Si3: S. Andersson, C. Leygraf, T. Johnsson. Inorganic Chemistry II, Chemical Centre, Lund, Sweden Page 160

Oxydes de plomb. II. Etude structurale à 5 K de la phase orthorhombique de l'oxyde Pb3O4: J. R. Gavarri, G. Calvarin, and D. Weigel. Laboratoire de Chimie, C.S.P. Université Paris, Nord et Ecole Centrale des Arts et Manufactures, 92290 Chatenay-Malabry, France Page 160

Préparation et structure d'un polyphosphure de magnesium: MgP4: A. E. Maslout, M. Zanne, J. Jeannot, and C. Gleitzer. Laboratoire de Chimie du Solid, C.N.R.S. No. 158, Service de Chimie Minerale A, No. 140, 54037 Nancy Cedex, France Page 160

Etude de la tetracoordination de l'etain dans deux orthothiostannates: Na4SnS4 et Ba2SnS4 (α): J. C. Jumas, E. Philippot, F. Vermot-Gaud-Daniel, M. Ribes, and M. Maurin. Laboratoire de Chimie Minerale C, E.R.A. 314, Université des Sciences et Techniques du Languedoc, Place Eugene Bataillon, 34060 Montpellier Cedex, France Page 160

Etude thermodynamique des oxydes TiO2−x à 1050°C: C. Picard and P. Gerdanian. Laboratoire des Composés Nonstoechiometrique, Université de Paris—Sud, Centre d'Orsay, 91405 Orsay, France Pages 160-161

The iodates of scandium: K. Nassau and J. W. Shiever. Bell Laboratories, Murray Hill, New Jersey 07974 Page 161

High resolution electron microscopy of crystallographic shear structures in tungsten oxides: S. Iijima. Department of Physics, Arizona State University, Tempe, Arizona 85281 Page 161

Etude structurale de Na4Sn3S8 evolution de la coordination de l'etain dans le systeme Na2S-SnS2: J. C. Jumas, E. Philipott, and M. Maurin. Laboratorire de Chimie Minerale C, ERA 314, Université des Sciences et Techniques du Languedoc, Place Eugene Bataillon, 34060 Montpellier Cedex, France Page 161

Energy transfer in mercury-doped calcium tungstate and molybdate: G. Blasse. Solid State Department, Physical Laboratory, University of Utrecht, Sorbonnelaan 4, Utrecht, The Netherlands Page 161

Electronic conductivity in nonstoichiometric cerium dioxide: R. N. Blumenthal and R. K. Sharma. Metallurgy and Materials Science, College of Engineering, Marquette University, Milwaukee, Wisconsin 53233 Page 161

The defect structure of CdTe; self-diffusion data: S. S. Chern and F. A. Kroger. Department of Materials Science, University of Southern California, University Park, Los Angeles, California 90007 Page 162

Magnetic susceptibility and torque measurements of FeV2S4, FeV2Se4, and FeTi2Se4: S. Muranaka and T. Takada. Institute for Chemical Research, Kyoto University, Uji, Kyoto-fu, Japan Page 162

An 57Fe Mössbauer effect of magnetic ordering in the Fe2O3-Cr2O3 system: T. Birchall and A. F. Reid. Division of Mineral Chemistry, CSIRO, Box 124, Port Melbourne, Australia Page 162

Sur les propriétes electriques et magnétiques des phases MxZrS2 (M = Fe, Co, Ni): L. Trichet, J. Rouxel, and M. Pouchard. Laboratoire de Chimie Minerale A, E.R.A. No. 472, 38 Boulevard Michelet, 44037 Nantes Cedex, France Page 162

The synthesis and crystal structure of CaCu3Mn4O12: A new ferromagnetic perovskite-like compound: J. Chenavas, J. C. Joubert, M. Marezio, and B. Bochu. Laboratoire des Rayons X, C.N.R.S., Rue des Martyrs, B.P. 166, 38042 Grenoble Cedex, France Page 162

The structure of the fluorite-related phase Ca2Hf7O16: H. J. Rossell and H. G. Scott. CSIRO Division of Tribophysics, University Grounds, Parkville, Victoria, 3052, Australia Page 163

The defect structure of CdTe: Hall data: S. S. Chern, H. R. Vydyanath, and F. A. Kröger. Department of Materials Science, University of Southern California, University Park, Los Angeles, California 90007 Page 163

Sur le système BaFeO3−x-Bi2O3: M. Zanne, C. Gleitzer, and J. Aubry. Laboratoire de Chimie du Solide, C.N.R.S. No. 158, Université de Nancy I, 54037 Nancy Cedex, France Page 163

Decomposition of Co2TiO4 spinel below 1000 K: M. Inagaki and S. Naka. Faculty of Engineering, Nagoya University, Furo-Cho, Chikusa-ku, Nagoya 464, Japan Page 163

Preparation, propriétés cristallographiques, magnétiques et electriques de la solution solide Ca2−xYxMnO4: C. Chaumont, A. Daoudi, G. Le Flem, and P. Hagenmuller. Laboratoire de Chimie du Solide du C.N.R.S., Université de Bordeaux I, 351 Cours de la Liberation, 33405 Talence, France Page 163

Issue 3, Pgs 165-273, (March, 1975)

Les bronzes de cobalt KxCoO2 (x < 1). L'oxyde KCoO2 Pages 165-171 Claude Delmas, Claude Fouassier, Paul Hagenmuller

Relationships between the structures of the rare earth fluorides and high chalcocite Cu2S. Implications for solid electrolyte behavior Pages 172-175 M. O'Keeffe, B.G. Hyde

Standard free energy of formation of YFeO3, Y3Fe5O12, and a new compound YFe2O4 in the Fe-Fe2O3-Y2O3 system at 1200°C Pages 176-181 Noboru Kimizuka, Takashi Katsura

Phase relations, dopant effects, structure, and high electrical conductivity in the Na2WO4-Na2MoO4 system Pages 182-191 P.H. Bottelberghs, F.R. van Buren

The high temperature behavior of In2O3 Pages 192-200 J.H.W. de Wit

Rare earth ions in a hexagonal field IV Pages 201-203 E. Segal, W.E. Wallace

Mössbauer study of tin phosphides Pages 204-207 L. Häggström, J. Gullman, T. Ericsson, R. Wäppling

Polymorphism and stability of some sodium cryolites to high pressures Pages 208-214 Carl W.F.T. Pistorius

IR-Spektroskopische und Röntgenographische Untersuchungen an Thiospinellmischkristallen Pages 215-222 H.D. Lutz, H. Haeuseler

Etude systématique des relations entre les structures wadéite et tétragermanate Pages 223-230 J. Choisnet, A. Deschanvres, B. Raveau

New nonstoichiometric molybdate, tungstate, and vanadate catalysts with the scheelite-type structure Pages 231-236 A.W. Sleight, K. Aykan, D.B. Rogers

X-ray photoelectron spectroscopic studies of solid electrolytes Pages 237-244 T. Dickinson, A.F. Povey, P.M.A. Sherwood

Effet Jahn-Teller cooperatif et affinite tétraedrique des ions Mn2+ et Zn2+ dans le système Mn3O4-Zn2SnO4 Pages 245-251 Marc Nogues, Paul Poix

Oxydes de plomb. I. Structure cristalline du minium Pb3O4, à température ambiante (293 K) Pages 252-257 Jean-Raymond Gavarri, Dominique Weigel

First order magnetic transition, magnetic structure, and vacancy distribution in Fe2P Pages 258-271 R. Wäppling, L. Häggström, T. Ericsson, S. Devanarayanan, E. Karlsson, B. Carlsson, S. Rundqvist

Influence of local charge compensation on site occupation and luminescence of apatites: G. Blasse. Solid State Department, Physical Laboratory, University of Utrecht, Utrecht, The Netherlands Page 272

Transition metal iodates VI: Preparation and characterization of the larger lanthanide iodates: K. Nassau, J. W. Shiever, and B. E. Prescott. Bell Laboratories, Murray Hill, New Jersey 07974 Page 272

Structural behavior of the ferromagnetic spinels AlxMo2S4 and GaxMo2S4 containing tetrahedral clusters of molybdenum atoms: J M Vandenberg and D. Brasen. Bell Laboratories, Murray Hill, New Jersey 07974 Page 272

Crystal structure of vanadium suboxide V2O1±x: K. Hiraga and M. Hirabayashi. Research Institute for Iron, Steel and Other Metals, Tohoku University, Sendai, Japan Page 272

Zur Kinetik der Spinellbildung Von β-Ga2O3 mit Zweiwertigen Oxiden. II. Tracerdiffusion von63Ni2+ und 67Ga3+ im Nickel-Gallium-Spinell: W. Laqua. Institut für Anorganische und Analytische Chemie der Technischen Universität, Berlin, Germany Page 272

Disordered modifications of cobalt molybdate: J. Chojnacki and R. Kozlowski. Department of Crystal Chemistry and Crystal Physics, Jagiellonian University, Cracow, Poland Page 273

On the crystal structures of the fluorite-related intermediate rare-earth oxides: P. Kunzman and L. Eyring. Department of Chemistry, Arizona State University, Tempe, Arizona 85281 Page 273

Etude des propriétés magnétiques de la varieté monoclinique du monogermaniure de fer: C. Max, G. Le Caër, and B. Roques. Laboratoire de Chimie Minerale B, Université de Nancy I, Case Officielle No. 140, 54037, Nancy Cedex, France Page 273

A study of the new perovskite solid-solution series SrFexRu1−xO3−y by ruthenium-99 and iron-57 mössbauer spectroscopy: T. Gibb, R. Greatrex, N. N. Greenwood, and K. G. Snowdon. Department of Inorganic and Structural Chemistry, The University of Leeds, Leeds LS2 9JT, England Page 273

Issue 4, Pgs 275-377, (April, 1975)

Les phases Na4XO4 (X = Si, Ti, Cr, Mn, Co, Ge, Sn, Pb) et K4XO4 (X = Ti, Cr, Mn, Ge, Zr, Sn, Hf, Pb) Pages 275-282 Roger Olazcuaga, Jean-Maurice Reau, Michel Devalette, Gilles Le Flem, Paul Hagenmuller

Quantum yield of Ce3+ and energy transfer between Ce3+ and Tb3+ in borax glasses Pages 283-287 R. Reisfeld, J. Hormadaly

The compounds and the phase diagram of MoO3-Rich Bi2O3-MoO3 system Pages 288-297 Tu Chen, G.S. Smith

Magnetic and crystallographic properties of spinels of the type AxB2S4 where A = Al, Ga, and B = Mo, V, Cr Pages 298-303 D. Brasen, J.M. Vandenberg, M. Robbins, R.H. Willens, W.A. Reed, R.C. Sherwood, X.J. Pinder

Magnetic susceptibility of MnIn2S4 Pages 304-306 Ching-I Hsu, John J. Steger, Edgar A. DeMeo, Aaron Wold, Gerald S. Heller

Variation of lattice parameters in TiS-VS solid solutions Pages 307-310 H.F. Franzen, D.H. Leebrick, F. Laabs

Magnetic properties of Gd1−xThxFe2 and Gd1−xCexFe2 Pages 311-314 E.T. Miskinis, K.S.V.L. Narasimhan, W.E. Wallace, R.S. Craig

Magnetic properties of Ln2−xLn′xCo17 compounds (Ln = Gd, Dy, Ho, or Er, Ln′ = Th or Ce) Pages 315-318 K.S.V.L. Narasimhan, W.E. Wallace

Analyse des profils de raies de diffraction des rayons X d'un hydroxynitrate de nickel non stoechiométrique Pages 319-324 D. Louër

Phase behavior of Li2WO4 at high pressures and temperatures Pages 325-329 Carl W.F.T. Pistorius

Topotactic decomposition and crystal structure of white molybdenum trioxide-monohydrate: Prediction of structure by topotaxy Pages 330-338 H.R. Oswald, J.R. Günter, E. Dubler

Energy transfer in mercury-doped calcium tungstate and molybdate Pages 339-344 G. Blasse

The structure of the fluorite-related phase Ca2Hf7O16 Pages 345-350 H.J. Rossell, H.G. Scott

An 57Fe Mössbauer effect study of magnetic ordering in the Fe2O3-Cr2O3 system Pages 351-359 T. Birchall, A.F. Reid

Electronic conductivity in nonstoichiometric cerium dioxide Pages 360-364 R.N. Blumenthal, R.K. Sharma

Decomposition of Co2TiO4 spinel below 1000 K Pages 365-367 M. Inagaki, S. Naka

The iodates of scandium Pages 368-371 K. Nassau, J.W. Shiever

Preparation of the HgCr2(SexS1−x)4 type compounds and the X-ray control of the process of formation of their spinel structures: I. Okonska-Kozlowska, D. Konopka, M. Jelonek, J. Heimann, J. Pietkiewicz, and A. Chelkowski. Uniwersytet Slaski, Instytut Fizyki, ul. Uniwersytecka 4, 40-007 Katowice, Poland Page 372

Apatites of divalent europium: I. Mayer, E. Fischbein, and S. Cohen. Department of Inorganic and Analytical Chemistry, Hebrew University of Jerusalem, Israel Page 372

Phase equilibria, thermal analysis, and reactivity of tin tungsten bronzes and related phases: I. J. McColm, R. Steadman, and C. Dimbylow. School of Materials Science, University of Bradford, Bradford BD7 1DP, England Page 372

Structural relationships, crystal chemistry and anion substitution processes for M(III)X3 systems of the lanthanides and actinides: J. M. Haschke. Department of Chemistry, University of Michigan, Ann Arbor, Michigan 48104 Page 372

Chemical self-diffusion in CdTe: S. S. Chern and F. A. Kröger. Department of Materials Science, University of Southern California, Los Angeles, California 90007 Pages 372-373

Hg2M2F6S et Hg2M2F6O: Deux nouvelles familles de pyrochlores contenant du mercure et des metaux M de transition divalents: D. Bernard, J. Pannetier, and J. Lucas. Université de Rennes, U.E.R. Laboratoire de Chimie Minérale D, Avenue du General Leclerc, 35031 Rennes Cedex, France Page 373

Luminescence and vibrational spectra of Ba5Li2W3O15: G. Blasse. Solid State Chemistry Department, Physical Laboratory, State University, Utrecht, The Netherlands Page 373

Hydrothermal crystal synthesis in the Ho2O3(Yb2O3)-GeO2-KF-H2O systems: G. A. Emelchenko, L. N. Demyanets, A. N. Lobachev. Institute of Crystallography, Academy of Science, Moscow, U.S.S.R. Page 373

Low-temperature heat capacity and magnetic studies on DyCu5: K. S. V. L. Narasimhan, M. J. Klein, and R. A. Butera. Department of Chemistry, University of Pittsburgh, Pittsburgh, Pennsylvania 15260 Page 373

Influence de la substitution tungstene-niobium sur les propriétés cristallographiques et dielectriques de la solution solide de compositions, limites Ba2,50−xNa2xNb5O15 (0,23 ≤ x ≤ 0,60) le systeme BaNb2O6-(NaNbO3)2-(WO3)2 a 1050°C: J. M. Reau, B. Elouadi, J. Ravez, and P. Hagenmuller. Laboratorie de Chimie du Solide du C.N.R.S., Université de Bordeaux I, 351 Cours de la Liberation, 33405 Talence, France Page 373

Charge carriers and dc polarization phenomena in solid Na2WO4: P. H. Bottelberghs and E. Everts. Inorganic Chemistry Department, State University Utrecht, Croesestraat 77a, Utrecht, The Netherlands Page 374

Crystal structures of the fluorite-related phases CaHf4O9 and Ca6Hf19O44: J. G. Allpress, H. J. Rossell, and H. G. Scott. Division of Tribophysics, CSIRO, University of Melbourne, Parkville, Victoria 3052, Australia Page 374

Etude des propriétés magnétiques, electriques, et optiques des phases de structure pérovskite SrVO2.90 et SrVO3: P. Dougier, J. C. C. Fan, and J. B. Goodenough. Laboratoire de Chimie du Solide du C.N.R.S., Université de Bordeaux, 351 Cours de la Liberation, 33405 Talence, France Page 374

A single-crystal study of barium tungsten lithium oxide, a compound with a ten-layer structure: E. F. Jendrek, A. D. Potoff, L. Katz. Department of Chemistry and Institute of Materials Science University of Connecticut, Storrs, Connecticut, 06268 Page 374

A new productivity function and stability criterion in chemical vapor transport processes: K. Klosse. Solid State Department, Physical Laboratory, University of Utrecht, Sorbonnelaan 4, Utrecht, The Netherlands Pages 374-375

Structural chemistry of Sr3Cr2WO9, Ca3Cr2WO9, and Ba3Cr2WO9: D. Ballutaud-Harari and P. Poix. E.R. 83 C.N.R.S., Laboratoire de Chimie Minérale, Batiment 420, Faculté des Sciences, 91406 Orsay, France Page 375

Author index Pages 376-377