f652, XIX.2.1 Simple oxo-compounds of molybdenum (oxomolybdates)

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Pies, W., Weiss, A.:  f652, XIX.2.1 Simple oxo-compounds of molybdenum (oxomolybdates). Hellwege, K.-H., Hellwege, A. M. (ed.). SpringerMaterials - The Landolt-Börnstein Database (http://www.springermaterials.com). DOI: 10.1007/10201577_17

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Source: Title f652, XIX.2.1 Simple oxo-compounds of molybdenum (oxomolybdates) Author W. Pies, A. Weiss Part of Landolt-Börnstein - Group III Condensed Matter Numerical Data and Functional Relationships in Science and Technology Volume 7f: Key Elements: d4–d8-Elements Edited by K.-H. Hellwege, A. M. Hellwege Chapter-DOI 10.1007/10201577_17 Book-DOI 10.1007/b19981 (Volume in Bookshelf)

Related Documents: Title, Preface, etc., Vol. III/7F f1, XIX.1.1 Simple oxo-compounds of chromium (oxochromates) f73, XIX.1.1 Simple oxo-compounds of chromium (oxochromates) f158, XIX.1.1 Simple oxo-compounds of chromium (oxochromates) f233, XIX.1.2 Simple oxo-compounds of chromium with H2O, NH3, – (oxochromates with H2O, NH3, –) f272, XIX.1.3 Hydroxo-compounds of chromium (hydroxochromates), XIX.1.4.1.1 Tetraoxochromates(VI) with Fe-, –, I- f284, XIX.1.4.1.2-3 Tetraoxochromates(VI) with Fe-, –, I- and H2O, NH3, tetraoxochromates(VI) with O(2-) as additional anion f293, XIX.1.4.1.4 Tetraoxochromates(VI) with O(2-) as additional anion and H2O, NH3 f300, XIX.1.4.1.5 Tetraoxochromates(VI) with OH- as additional anion f318, XIX.1.4.1.6 Tetraoxochromates(VI) with OH- as additional anion and H2O, NH3 f330, XIX.1.4.1.7 Tetraoxochromates(VI) with IO3(-), SO4(2-), PO4(3-), –, as further anions f345, XIX.1.4.2.1 Fluorooxochromates f359, XIX.1.4.2.2 Chlorooxochromates f366, XIX.1.5 Halogenothiochromates, halogenoselenochromates, and halogenotellurochromates f373, XIX.2.1 Simple oxo-compounds of molybdenum (oxomolybdates) f499, XIX.2.1 Simple oxo-compounds of molybdenum (oxomolybdates) f797, XIX.2.1 Simple oxo-compounds of molybdenum (oxomolybdates) f943, XIX.2.1 Simple oxo-compounds of molybdenum (oxomolybdates) f1044, XIX.2.2.1 Oxomolybdates with H2O f1154, XIX.2.2.2 Oxomolybdates with NH3, XIX.2.3.1.1 Anhydrous fluorooxomolybdates f1193, XIX.2.3.1.2 Fluorooxomolybdates with H2O f1200, XIX.2.3.2 Chloro- and bromooxomolybdates f1218, XIX.2.3.3 Oxomolybdates with O(2-) as additional anion f1226, XIX.2.3.4 Hydroxooxomolybdates f1231, XIX.2.3.5 Oxomolybdates with VO4(3-), CrO4(2-), – as further anions f1238, XIX.2.4 Oxothio-, thio-, oxoseleno-, seleno-, and oxoselenothio-molybdates f1252, XIX.3.1 Simple oxo-compounds of tungsten (oxotungstates) f1327, XIX.3.1 Simple oxo-compounds of tungsten (oxotungstates) f1401, XIX.3.1 Simple oxo-compounds of tungsten (oxotungstates) f1495, XIX.3.1 Simple oxo-compounds of tungsten (oxotungstates)

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References:

71Mc12	Mcdarthy, G.J. (1971) Mater. Res. Bull. 6: 31-40
70Hu9	Hubert, P.-H., P∼nis, R.A. (1970) Compt Rend. 271 C: 1179-1181
68Hu4	Hubent, P.-H. (1968) Corn pt Rend. 267 C: 1611-1613
70Fo5	Fournier, J.-P., Fournier, J., Kohlmuller, R.: Bull. Soc. Chim. France 1970, 4271–4283.
64Po11	Potten, R.A., McDonald, R.E., Leitten, C.F., Jr. (1964) Met. Soc. Am. Inst. Mining Met. Petrol. Engrs. Inst. Metals Div. Spec. Rept. Ser. 10: 547-556
69Po6	Pokrovskii, A.N., Rybakov, V.K., Trunov, V.K. (1969) Zh. Neorgan. Khim. 14: 2344-2347
65Na1	Nassau, K., Levinstein, H.J., Loiacono, G.M. (1965) J. Phys. Chem. Solids 26: 1805-1816
69Ja1	Jamieson, P.B., Abrahams, S.C., Bernstein, J.L. (1969) J. Chem. Phys. 50: 86-94
71Br33	Brixner, L.H., Bierstedt, P.E., Sleight, A.W., Licis, M.S. (1971) Mater. Res. Bull. 6: 545-554
71Na7	Nassau, K., Shiever, J.W., Keve, E.T. (1971) J. Solid State Chem. 3: 411-419
69Ne8	Newnham, R.E., McKinstry, H.A., Gregg, C.W., Stitt, W.R. (1969) Phys. Status Solidi 32: K49-K51
69Mo20	Mokhosoev, M.V., Get'man, E.I., Alekseev, F.P. (1969) Dokl. Akad. Nauk SSSR 185: 361-362
69Kl8	Klevtsov, P. V., Kaxeeva, L.P. (1969) lxv. Akad. Nauk SSSR, Neorgan. Materialy 5: 1842-1843
70Dr9	Drobyshev, L.A., Rabinovich, A.Z., Venevtsev, Yu.N. (1970) Izv. Akad. Nauk SSSR, Ser. Fiz. 34: 2528-2540
70Dr6	Drobyshev, L.A. (1970) Kristallografiya 15: 960-963
69Mo33	Mokhosoev, M.V., Alekseev, F.P., Get'man, E.I. (1969) Zh. Neorgan. Khim. 14: 596-597
67Mo14	Mokhosoev, M.V., Knivobok, V.I., Aleikina, S.M., Zhigulina, N.S., Kisel`, N.G. (1967) Izv. Akad. Nauk SSSR, Neorgan. Materialy 3: 1657-1660
64Sch26	Schieben, M., Holmes, L. (1964) J. Appl. Phys. 35: 1004-1005
70Tr12	Trunov, V.K., Rybakova, T.P. (1970) Zh. Neorgan. Khim. 15: 3028-3030
70Mo22	Mokhosoev, M.V., Getman, E.I., Alekseev, F.P., Loboda, S.N. (1970) Izv. Akad. Nauk SSSR, Neorgan. Materialy 6: 1857-1860
69Sp5	Spitsyn, V.I., Trunov, V.K. (1969) Dokl. Akad. Nauk SSSR 185: 854-855
70Po14	Pol'shchikova, E.Ya., Trunov, V.K. (1970) Zh. Neorgan. Khim. 15: 1148-1149
71Ry5	Rybakova, T.P., Trunov, V.K. (1971) Zh. Neorgan. Khim. 16: 277-278
71Al9	Alekseev, F.P., Getman, E.I., Mokhosoev, M.V., Ugnivenko, TA. (1971) Zh. Neorgan. Khim. 16: 163-165
70Ry1	Rybakov, V.K., Trunov, V.K., Spitsyn, V.I. (1970) Dokl. Akad. Nauk SSSR 192: 369-371
71Tr14	Trunov, V.K. (1971) Zh. Neorgan. Khim. 16: 553-554
71Ry7	Rybakov, V.K., Trunov, V.K. (1971) Zh. Neorgan. Khim. 16: 1320-1325
71Fa8	Faurie, J.-P.: Bull. Soc. Chim. France 1971, 3865–3868.
71Fa2	Faurie, J.-P., Kohlmuller, R. (1971) Rev. Chim. Minerale 8: 241-276
65Sch11	Schieben, M.M. (1965) Inorg. Chem. 4: 762-763
71Br11	Brandle, C.D., Steinfink, H. (1911) Inorg. Chem. 10: 922-926
66Bl3	Blasse, G. (1966) J. Inorg. Nucl. Chem. 28: 1488-1489
70Dr1	Drobyshev, L.A., Frolkina, I.T., Ponomarev, V.I., Tomashpol'skii, Yu.Ya., Venevtsev, Yu.N., Zhdanov, G.S. (1970) Kristallografiya 15: 68-74
69Ai1	Aizu, K., Kumada, A., Yumoto, H., Ashida, 5. (1969) J. Phys. Soc. Japan 27: 511
70Ku14	Kumada, A. (1910) Proc. Ist Conf. Solid State Devices, Tokyo 1969 39: 258-263
67Ka10	Kaminskii, A.A., Osiko, V. V. (1967) Izv. Akad. Nauk SSSR, Neorgan. Materialy 3: 417-463
70Cu5	Cummins, S.E. (1970) Ferroelectrics 1: 11-17
71Na10	Nakamura, T., Kondo, T., Kumada, A. (1971) Solid State Commun. 9: 2265-2268
70Ke14	Keve, E.T., Abrahams, S.C., Nassau, K., Glass, A.M. (1970) Solid State Commun. 8: 1517-1520
66Ab3	Abrahams, S.C. (1966) Acta Cryst. 21: A40
70Je1	Jeitschko, W. (1970) Naturwissenschaften 57: 544
71Ke3	Keve, E.T., Abrahams, S.C., Bernstein, J.L. (1971) J. Chem. Phys. 54: 3185-3194
66Bo13	Borchardt, H.J., Bierstedt, P.E. (1966) Appl. Phys. Letters 8: 50-52
65Be9	Bernstain, J.L. (1965) Z. Krist. 122: 315-316
70Fl6	Fleury, P.A. (1910) Solid State Commun. 8: 601-605
66Ab7	Abrahams, S.C., Bernstein, J.L.: Am. Cryst Assoc., Winter Meeting, Feb. 28–Mar.2, 1966, Abstract N 1.
68Dr3	Drobyshev, L.A., Torn ashpol'skii, Yu.Ya., Safanov, A.I., Antonov, G.N., Fedulov, S.A., Venevtsev, Yu.N. (1968) Kristallografiya 13: 1100-1102
70Ke16	Keve, E.T., Abrahams, S.C., Bernstein, J.L.: Am. Cryst. Assoc., Summer Meeting, August 16–22, 1970, Ottawa, Canada, Abstract 1 5.
71Ab9	Abrahams, S.C. (1971) Mater. Res. Bull. 6: 881-890
71Ab10	Abc, M., Kawachi, M., Nomura, 5. (1971) J. Phys. Soc. Japan 31: 940
71Je1	Jeitschko, W.: ACA Meeting, “Mechanism of Phase Transitions” Columbia, South Carolina, USA, Jan. 31–Feb.4, 1971, p.17 (Abstract).
69Ry3	Rybakov, V.K., Trunov, V.K. (1969) Zh. Neorgan. Khim. 14: 2889-2890
71Ka16	Kapyshev, A.G., Venevtsev, Yu.N., Gaidukova, S.V. (1971) Izv. Akad. Nauk SSSR, Ser. Fiz. 35: 1842
71Bo19	nBourdet, J.-B., Faunie, J.-P.: Bull. Soc. Chim. France 1971, 3868–3870.
71Be2	Bernstein, J.L., Abrahams, S.C.: Am. Cryst. Assoc., Summer Meeting, Ames, Iowa, August 15–20, 1971; Abstract MS.
70Sa10	Savel'eva, M.V., Shakhno, 1.V., Plyushchev, V.E. (1970) Izv. Akad. Nauk SSSR, Neorgan. Materialy 6: 1665-1669
65He7	Heindl, R., Damay, F., Agobian, R., Loners, J. (1965) Compt. Rend. 261: 3335-3338
68Kl5	Klevtsov, P. V., Kozeeva, L.P. (1968) Izv. Akad. Nauk SSSR, Neargan. Materialy 4: 1379-1381
69Kl11	Klevtsov, P.V. (1969) Bull. Sae. Franc. Mineral. Cnist 92: 352-359
70Fe6	Fesenko, E.G., Filip'ev, V.S., Kupriyanov, M.F., Fedenko, N.P., Devilkanova, R.U., Zhavoronko, G.P., Shvom, E.A. (1970) Izv. Akad. Nauk SSSR, Neorgan. Materialy 6: 179-181
68Ro25	Rode, E.Ya., Lysanova, G.V., Kuznetsov, V.G., Gokhnian, L.Z. (1968) Zh. Neorgan. Khim. 13: 1295-1302
64Ai1	Aitken, E.A., Bartram, S.F., Juenke, E.F. (1964) Inorg. Chem. 3: 949-954
69Fa6	Faunie, J.-P., Kohhmuller, R. (1969) Compt. Rend. 269C: 523-525

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Chapter Concepts:

Substances / Molecular Formulas	(Eu0,89\\III❒0,11)(Mo0,89❒0,11)O4; (EuIII0.89 []0.11) (Mo0.89 []0.11) O4; Ba2DyMoO6; Ba2ErMoO6; Ba2EuMoO6(I); Ba2GdMoO6(I); Ba2HoMoO6; Ba2TbMoO6(I); Ba2DyMoO6; Ba2ErMoO6; Ba2EuMoO6; Ba2GdMoO6; Ba2HoMoO6; Ba2MoO6Tb; Ba2TbMoO6; BaDy0,667Mo0,333O3; BaDy0.667Mo0.333O3; BaEr0,667Mo0,333O3; BaEr0.667Mo0.333O3; BaGd0,667Mo0,333O3; BaGd0.667Mo0.333O3; BaHo0,667Mo0,333O3; BaHo0.667Mo0.333O3; BaTb0,667Mo0,333O3; BaTb0.667Mo0.333O3; CaEu6Mo4O22; CaEu6Mo4O22; CaGd6Mo4O22; CaGd6Mo4O22; CdDy4Mo3O16; CdDy4Mo3O16; CdEr4Mo3O16; CdEr4Mo3O16; CdEu4Mo3O16; CdEu4Mo3O16; CdGd4Mo3O16; CdGd4Mo3O16; CdHo4Mo3O16; CdHo4Mo3O16; CdMo3O16Tb4; CdTb4Mo3O16; CdTb4Mo3O16; CsDy (MoO4)2; CsDy(MoO4)2; CsDyMo2O8; CsEr (MoO4)2; CsEr(MoO4)2(I); CsEr(MoO4)2(II); CsErMo2O8; CsEu (MoO4)2; CsEu(MoO4)2; CsEuMo2O8; CsGd (MoO4)2; CsGd(MoO4)2; CsGdMo2O8; CsHo (MoO4)2; CsHo(MoO4)2(II); CsHoMo2O8; Dy2(MoO4)3(III'); Dy2(MoO4)3(III); Dy2(MoO4)3(IV); Dy2Mo2,5O8; Dy2MoO6; Dy6MoO12; Dy2 (MoO4)3; Dy2Mo2.5O8; Dy2Mo3O12; Dy2MoO6; Dy6MoO12; DyKMo2O8; DyLiMo2O8; DyMo2NaO8; DyMo2O8Rb; Er2(MoO4)3; Er2MoO6; Er6MoO12(I); Er6MoO12(II); Er2 (MoO4)3; Er2Mo3O12; Er2MoO6; Er6MoO12; ErKMo2O8; ErLiMo2O8; ErMo2NaO8; ErMo2O8Rb; Eu2(Mo04)3(II); Eu2(MoO4)3(I'); Eu2(MoO4)3(I); Eu2Mo2O7; Eu2MoO6; Eu3Mo2O10; Eu53MoO11; Eu6MoO12; Eu2 (MoO4)3; Eu2Mo2O7; Eu2Mo3O12; Eu2MoO6; Eu3Mo2O10; Eu53MoO11; Eu6Mo4O22Sr; Eu6MoO12; EuKMo2O8; EuLiMo2O8; EuMo2NaO8; EuMo2O8Rb; EuMoO4; EuMoO4; Gd2(MoO4)3(I'); Gd2(MoO4)3(I); Gd2(MoO4)3(II); Gd2Mo2-5O8; Gd2MoO6; Gd3Mo2O10; Gd6MoO12; Gd2 (MoO4)3; Gd2(MoO4)3; Gd2Mo2-5O8; Gd2Mo3O12; Gd2MoO6; Gd3Mo2O10; Gd6MoO12; GdDy (MoO4)3; GdDy(MoO4)3(I'); GdLiMo2O8; GdMo2NaO8; GdMo2O8Rb; Ho2(MoO4)3(I); Ho2(MoO4)3(II); Ho2MoO6; Ho6MoO12; Ho2 (MoO4)3; Ho2(MoO4)3; Ho2Mo3O12; Ho2MoO6; Ho6MoO12; HoKMo2O8; HoLiMo2O8; HoMo2NaO8; HoMo2O8Rb; K5Dy(MoO)4(III); K5Dy(MoO4)4(I); K5Dy(MoO4)4(II); K5Er(MoO4)4(I); K5Er(MoO4)4(II); K5Er(MoO4)4(III); K5Eu(MoO4)4(I); K5Eu(MoO4)4(II); K5Gd(MoO4)4(I); K5Gd(MoO4)4(II); K5Ho(MoO4)4(I); K5Ho(MoO4)4(II); K5Ho(MoO4)4(III); K5Tb(MoO4)4; K5Dy (MoO)4; K5Dy (MoO4)4; K5Er (MoO4)4; K5Eu (MoO4)4; K5Gd (MoO4)4; K5Ho (MoO4)4; K5Tb (MoO4)4; KDy (MoO4)2; KDy(MoO4)2; KEr (MoO4)2; KEr(MoO4)2; KEu (MoO4)2; KEu(MoO4)2(I); KEu(MoO4)2(II); KGd(MoO4)2 II); KHo (MoO4)2; KHo(MoO4)2; KMo2O8Tb; KTb (MoO4)2; KTb(MoO4)2(I); KTb(MoO4)2(II); LiDy (MoO4)2; LiDy(MoO4)2; LiEr (MoO4)2; LiEr(MoO4)2; LiEu (MoO4)2; LiEu(MoO4)2; LiGd (MoO4)2; LiGd(MoO4)2; LiHo (MoO4)2; LiHo(MoO4)2; LiMo2O8Tb; LiMo2O8Tm; LiTb (MoO4)2; LiTb(MoO4)2; LiTm (MoO4)2; LiTm(MoO4)2; Mo2NaO8Tb; Mo2NaO8Tm; Mo2O10Tb3; Mo3O12Tb2; Mo3O12Tm2; MoO12Tb6; MoO12Tm6; MoO6Tb2; MoO6Tm2; Na1,55La17,2Dy1,55Mo11,7O64; Na1,55La17,2Er1,55Mo11,7O64; Na1,55La17,2Gd1,55Mo11,7O64; Na1,55La17,2Ho1,55Mo11,7O64; Na1,55Nd17,2Dy1,55Mo11,7O64; Na1,55Nd17,2Er1,55Mo11,7O64; Na1,55Nd17,2Gd1,55Mo11,7O64; Na1,55Nd17,2Ho1,55Mo11,7O64; Na1,55Nd17,2Tb1,55Mo11,7O64; Na1,55Pr17,2Dy1,55Mo11,7O64; Na1,55Pr17,2Er1,55Mo11,7O64; Na1,55Pr17,2Gd1,55Mo11,7O64; Na1,55Pr17,2HO1,55Mo11,7O64; Na1,55Pr17,2Tb1,55Mo11,7O64; Na1,5La17,2Tb1,55Mo11,7O64; Na5Dy(MoO4)4; Na5Er(MoO4)4; Na5Eu(MoO4)4; Na5Gd(MoO4)4; Na5Ho(MoO4)4; Na5Tb(MoO4)4; Na1.55La17.2Dy1.55Mo11.7O64; Na1.55La17.2Er1.55Mo11.7O64; Na1.55La17.2Gd1.55Mo11.7O64; Na1.55La17.2Ho1.55Mo11.7O64; Na1.55Nd17.2Dy1.55Mo11.7O64; Na1.55Nd17.2Er1.55Mo11.7O64; Na1.55Nd17.2Gd1.55Mo11.7O64; Na1.55Nd17.2Ho1.55Mo11.7O64; Na1.55Nd17.2Tb1.55Mo11.7O64; Na1.55Pr17.2Dy1.55Mo11.7O64; Na1.55Pr17.2Er1.55Mo11.7O64; Na1.55Pr17.2Gd1.55Mo11.7O64; Na1.55Pr17.2Tb1.55Mo11.7O64; Na1.5La17.2Tb1.55Mo11.7O64; Na5Dy (MoO4)4; Na5Er (MoO4)4; Na5Eu (MoO4)4; Na5Gd (MoO4)4; Na5Ho (MoO4)4; Na5Tb (MoO4)4; NaDy (MoO4)2; NaDy(MoO4)2; NaEr (MoO4)2; NaEr(MoO4)2; NaEu (MoO4)2; NaEu(MoO4)2; NaGd (MoO4)2; NaGd(MoO4)2; NaHo (MoO4)2; NaHo(MoO4)2; NaTb (MoO4)2; NaTb(MoO4)2; NaTm (MoO4)2; NaTm(MoO4)2; Rb5Dy(MoO4)4 II); Rb5Dy(MoO4)4(I); Rb5Er(MoO4)4(II); Rb5Eu(MoO4)4(I); Rb5Eu(MoO4)4(II); Rb5Gd(MoO4)4; Rb5Ho(MoO4)4(II); Rb5Dy (MoO4)4; Rb5Er (MoO4)4; Rb5Eu (MoO4)4; Rb5Gd (MoO4)4; Rb5Ho (MoO4)4; RbDy (MoO4)2; RbDy(MoO4)2(II); RbEr (MoO4)2; RbEr(MoO4)2(I); RbEr(MoO4)2(II); RbEr(MoO4)2(III); RbEu (MoO4)2; RbEu(MoO4)2(I); RbEu(MoO4)2(II); RbGd (MoO4)2; RbGd(MoO4)2; RbHo (MoO4)2; RbHo(MoO4)2(II); SmGd (MoO4)3; SmGd(MoO4)3(I'); Sr1-xEuxMoO4; Sr1-xGdxMoO4; Sr1-xEuxMoO4; Sr1-xGdxMoO4; SrEu6Mo4O22; SrEu6Mo4O22; SrTb0,667Mo0,333O3; SrTb0.667Mo0.333O3; Tb2(MoO4)3(I); Tb2(MoO4)3(II'); Tb2(MoO4)3(II); Tb2(MoO4)3(III); Tb2Mo2,5O8; Tb2MoO6; Tb3Mo2O10; Tb6MoO12; Tb2 (MoO4)3; Tb2Mo2.5O8; Tb2MoO6; Tb3Mo2O10; Tb6MoO12; TlGd0,333Mo0,667O3; TlGd0.333Mo0.667O3; Tm2(MoO4)3; Tm2MoO6; Tm6MoO12; Tm2 (MoO4)3; Tm2MoO6; Tm6MoO12;
Element Systems	Ba-Dy-Mo-O; Ba-Er-Mo-O; Ba-Eu-Mo-O; Ba-Gd-Mo-O; Ba-Ho-Mo-O; Ba-Mo-O-Tb; Ca-Eu-Mo-O; Ca-Gd-Mo-O; Cd-Dy-Mo-O; Cd-Er-Mo-O; Cd-Eu-Mo-O; Cd-Gd-Mo-O; Cd-Ho-Mo-O; Cd-Mo-O-Tb; Cs-Dy-Mo-O; Cs-Er-Mo-O; Cs-Eu-Mo-O; Cs-Gd-Mo-O; Cs-Ho-Mo-O; Dy-Gd-Mo-O; Dy-K-Mo-O; Dy-La-Mo-Na-O; Dy-Li-Mo-O; Dy-Mo-Na-Nd-O; Dy-Mo-Na-O; Dy-Mo-Na-O-Pr; Dy-Mo-O; Dy-Mo-O-Rb; Er-K-Mo-O; Er-La-Mo-Na-O; Er-Li-Mo-O; Er-Mo-Na-Nd-O; Er-Mo-Na-O; Er-Mo-Na-O-Pr; Er-Mo-O; Er-Mo-O-Rb; Eu-K-Mo-O; Eu-Li-Mo-O; Eu-Mo-Na-O; Eu-Mo-O; Eu-Mo-O-Rb; Eu-Mo-O-Sr; Gd-K-Mo-O; Gd-La-Mo-Na-O; Gd-Li-Mo-O; Gd-Mo-Na-Nd-O; Gd-Mo-Na-O; Gd-Mo-Na-O-Pr; Gd-Mo-O; Gd-Mo-O-Rb; Gd-Mo-O-Sm; Gd-Mo-O-Sr; Gd-Mo-O-Tl; Ho-K-Mo-O; Ho-La-Mo-Na-O; Ho-Li-Mo-O; Ho-Mo-Na-Nd-O; Ho-Mo-Na-O; Ho-Mo-Na-O-Pr; Ho-Mo-O; Ho-Mo-O-Rb; K-Mo-O-Tb; La-Mo-Na-O-Tb; Li-Mo-O-Tb; Li-Mo-O-Tm; Mo-Na-Nd-O-Tb; Mo-Na-O-Pr-Tb; Mo-Na-O-Tb; Mo-Na-O-Tm; Mo-O-Sr-Tb; Mo-O-Tb; Mo-O-Tm;
CAS Registry Numbers	14985-14-9; 886117-26-6;
Properties	crystal structure;
Keywords	inorganic compounds;
Substrates	d4 element; d5 element; d6 element; d7 element; d8 element;

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