kw.\*:("CUIVRE MOLYBDATE")
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SOLID STATE SYNTHESIS OF COPPER MOLYBDATES.MACHEJ T; ZIOLKOWSKI J.1976; BULL. ACAD. POLON. SCI., SCI. CHIM.; POLOGNE; DA. 1976; VOL. 24; NO 7; PP. 577-583; ABS. RUSSE; BIBL. 10 REF.Article
PRECIPITATION OF COPPER MOSBDATES.MACHEJ T; ZIOLKOWSKI J.1976; BULL. ACAD. POLON. SCI., SCI. CHIM.; POLOGNE; DA. 1976; VOL. 24; NO 5; PP. 425-431; ABS. RUSSE; BIBL. 12 REF.Article
THERMAL DECOMPOSITION OF HYDRATED COPPER MOLYBDATES STUDIED BY X-RAY DIFFRACTION AND IR SPECTROSCOPY.MACHEJ T; ROMOTOWSKI T; ZIOLKOWSKI J et al.1977; BULL. ACAD. POLON. SCI., SCI. CHIM.; POLOGNE; DA. 1977; VOL. 25; NO 5; PP. 457-464; ABS. RUSSE; BIBL. 10 REF.Article
Lithium-copper molybdate voltage compatible batteryBONINO, F; LAZZARI, M; SCROSATI, B et al.Journal of the Electrochemical Society. 1984, Vol 131, Num 3, pp 610-612, issn 0013-4651Article
COPPER (I) AND COPPER (II) MOLYBDATES AS CATALYSTS IN SELECTIVE OXIDATION OF PROPYLENEHABER J; WILTOWSKI T.1979; BULL. ACAD. POL. SCI., SER. SCI. CHIM.; ISSN 0001-4095; POL; DA. 1979; VOL. 27; NO 10; PP. 785-791; ABS. RUS; BIBL. 4 REF.Article
LITHIUM-COPPER MOLYBDATE AND LITHIUM-COPPER TUNGSTATE ORGANIC SOLVENT BATTERIES.BONINO F; DI PIETRO B; RIVOLTA B et al.1978; J. POWER SOURCES; SWITZ.; DA. 1978; VOL. 2; NO 3; PP. 265-272; BIBL. 2 REF.Article
The crystal strucure of CuMoO4-IIITALI, R; TABACHENKO, V. V; KOVBA, L. M et al.Russian journal of inorganic chemistry. 1991, Vol 36, Num 7, pp 927-928, issn 0036-0236Article
ETUDE DES PROPRIETES CATALYTIQUES DES MOLYBDATES DES METAUX DU GROUPE IV DANS LA REACTION D'OXYDATION DE L'ACROLEINEYAKUBOVICH MN; GOROKHOVATSKIJ YA B; ALKHAZOV TG et al.1979; KINET. I KATALIZ; SUN; DA. 1979; VOL. 20; NO 1; PP. 113-117; BIBL. 12 REF.Article
Catalytic oxidation of model soot by chlorine based catalystsMUL, G; NEEFT, J. P. A; MAKKEE, M et al.Studies in surface science and catalysis. 1998, pp 645-654, issn 0167-2991, isbn 0-444-82795-1Conference Paper
Cu2Th4(MoO4)9 : Un nouveau squelette structural = Cu2Th4(MoO4)9 : a new structural skeletonLAUNAY, S; JAULMES, S; LUCAS, F et al.Journal of solid state chemistry (Print). 1998, Vol 136, Num 2, pp 199-205, issn 0022-4596Article
Electron paramagnetic resonance characterisation of silica-dispersed copper molybdate obtained by sol-gel and impregnation methodsCANEVALI, C; MORAZZONI, F; SCOTTI, R et al.Journal of material chemistry. 1999, Vol 9, Num 2, pp 507-513, issn 0959-9428Article
Magnetic Ordering and Tunable Structural Phase Transition in the Chromic Compound CuMoO4ASANO, Takayuki; NISHIMURA, Taizo; GAULIN, Bruce D et al.Journal of the Physical Society of Japan. 2011, Vol 80, Num 9, issn 0031-9015, 093708.1-093708.4Article
Crystal structure of lithium copper molybdate, Li2Cu2(MoO4)3WIESMANN, M; GESELLE, M; WEITZEL, H et al.Zeitschrift für Kristallographie. 1994, Vol 209, Num 7, issn 0044-2968, p. 615Article
PRIMARY LITHIUM-METALLIC OXYSALT ORGANIC ELECTROLYTE BATTERIESDI PIETRO B; SCROSATI B; BONINO F et al.1979; J. ELECTROCHEM. SOC.; USA; DA. 1979; VOL. 126; NO 5; PP. 729-731; BIBL. 9 REF.Article
Nano-scale structural inhomogeneities of CuI-Cu2MoO4 superionic conducting glass observed by high resolution transmission electron microscopyTSURUI, Takao; KAWAMURA, Junichi; SUZUKI, Kenji et al.Journal of non-crystalline solids. 2007, Vol 353, Num 3, pp 302-307, issn 0022-3093, 6 p.Article
Electrochemical intercalation of lithium in ternary metal molybdates MMoO4 (M: Cu, Zn, Ni and Fe)LEYZEROVICH, N. N; BRAMNIK, K. G; BUHRMESTER, T et al.Journal of power sources. 2004, Vol 127, Num 1-2, pp 76-84, issn 0378-7753, 9 p.Conference Paper
The use of solid electrolyte potentiometry in the study of oxygen transfer in oxidic catalystsESTENFELDER, M; LINTZ, H.-G.Applied catalysis. A, General. 2000, Vol 202, Num 2, pp 223-229, issn 0926-860XArticle
Hierarchy of dynamic structure of super-ionic conducting glass CuI-Cu2MoO4SUZUKI, K; SHIBATA, K; TSURUI, T et al.Journal of non-crystalline solids. 1998, Vol 232-34, pp 278-285, issn 0022-3093Conference Paper
Nanoscale phase separation of CuI-Cu2MoO4 superionic conducting glass studied by analytical transmission electron microscopyTSURUI, Takao; KAWAMURA, Junichi.Journal of non-crystalline solids. 2011, Vol 357, Num 1, pp 132-135, issn 0022-3093, 4 p.Article
Hydrothermal synthesis and structure of a novel 3D framework based on ξ-octamolybdate chains : [Cu2(quinoxaline)2Mo4O13]nCHEN, Li-Juan; LU, Can-Zhong; XIANG HE et al.Journal of solid state chemistry (Print). 2006, Vol 179, Num 8, pp 2541-2546, issn 0022-4596, 6 p.Article
Simultaneous determination of reaction kinetics and oxygen activity in single-phase oxidic catalysts and their mixture during partial oxidationsESTENFELDER, M; LINTZ, H.-G.Journal of catalysis (Print). 2002, Vol 209, Num 1, pp 177-185, issn 0021-9517Article
Low-temperature synthesis of nano-sized metal molybdate powdersSEN, Angana; PRAMANIK, Panchanan.Materials letters (General ed.). 2001, Vol 50, Num 5-6, pp 287-294, issn 0167-577XArticle
A chemical synthetic route for the preparation of fine-grained metal molybdate powdersSEN, Angana; PRAMANIK, Panchanan.Materials letters (General ed.). 2002, Vol 52, Num 1-2, pp 140-146, issn 0167-577XArticle
Low thermal expansion of cubic isostructural compoundsLAUNAY, S; QUARTON, M.Journal of materials science letters. 1999, Vol 18, Num 15, pp 1247-1248, issn 0261-8028Article
Thermal expansion of CuMoO4 below room temperatureWEBER, T; HARZ, M; WEHNER, B et al.Zeitschrift für Kristallographie. 1998, Vol 213, Num 4, pp 210-216, issn 0044-2968Article