Катион-дефицитные соединения со структурой шеелита и их свойства (1105576), страница 18
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Wang// Chem. Eng. J. – 2014. – Т. 244 – 350–354с.48. Kang F. A new study on the energy transfer in the color-tunable phosphorCaWO4:Bi. / F. Kang, M. Peng // Dalton Trans. – 2014. – Т. 43 – № 1 – 277–84с.49. Khanna A. Narrow spectral emission CaMoO4: Eu3+, Dy3+, Tb3+ phosphor crystalsfor white light emitting diodes / A. Khanna, P.S. Dutta // J. Solid State Chem.
– 2013.– Т. 198 – 93–100с.50. Liu Z. Energy transfer and electron–phonon coupling properties in Gd2(WO4)3:Euphosphor / Z. Liu, Q. Meng, H. Liu, C. Yao, Q. Meng, W. Liu, W. Wang // Opt.Mater. (Amst). – 2013. – Т. 36 – № 2 – 384–389с.51. Meert K.W. Energy transfer in Eu3+ doped scheelites: use as thermographicphosphor. / K.W. Meert, V.A. Morozov, A.M. Abakumov, J. Hadermann, D.Poelman, P. F. Smet // Opt. Express – 2014. – Т. 22 Suppl 3 – № May – A961–72с.52.
Wan J. Energy transfer and colorimetric properties of Eu3+/Dy3+ co-dopedGd2(MoO4)3 phosphors / J. Wan, L. Cheng, J. Sun, H. Zhong, X. Li, W. Lu, Y. Tian,H. Lin, B. Chen // J. Alloys Compd. – 2010. – Т. 496 – № 1-2 – 331–334с.53. Zhao X. Novel Eu3+-doped red-emitting phosphor Gd2Mo3O9 for white-lightemitting-diodes (WLEDs) application / X.
Zhao, X. Wang, B. Chen, Q. Meng, W.Di, G. Ren, Y. Yang // J. Alloys Compd. – 2007. – Т. 433 – № 1-2 – 352–355с.54. Zhou X. Luminescence properties and energy transfer of host sensitizedCaMoO4:Tb3+ green phosphors / X. Zhou, X. Yang, T. Xiao, K. Zhou, T. Chen, H.Yan, Z. Wang // J. Rare Earths – 2013. – Т. 31 – № 7 – 655–659с.55. Liu X. Synthesis and photoluminescence characteristics of Dy3+ doped NaY(WO4)2phosphors / X. Liu, W.
Xiang, F. Chen, Z. Hu, W. Zhang // Mater. Res. Bull. – 2013.– Т. 48 – № 2 – 281–285с.12156. Deng Y. Synthesis and photoluminescence characteristics of Ln3+ (Ln = Sm, Er andDy)-doped BaGd2(MoO4)4 phosphors / Y. Deng, S. Yi, Y. Wang, J. Xian // Opt.Mater. (Amst). – 2014. – Т. 36 – № 8 – 1378–1383с.57. Earnshaw A. Chemistry of the Elements / Butterworth&Heinemann, 1997. Изд. 2-oe– 1002–1039с.58. Cascales C.
The optical spectroscopy of lanthanides R3+ in ABi(XO4)2 (A = Li, Na;X = Mo, W) and LiYb(MoO4)2 multifunctional single crystals: Relationship with thestructural local disorder / C. Cascales, A.M. Blas, M. Rico, V. Volkov, C. Zaldo //Opt. Mater. (Amst). – 2005. – Т. 27 – 1672–1680с59. Errandonea D. Pressure effects on the structural and electronic properties of ABX4scintillating crystals / D. Errandonea, F.J.
Manjón // Prog. Mater. Sci. – 2008. – Т. 53– № 4 – 711–773с.60. Kuzmicheva G.M. Structural features of phases (Na0.5R0.5)MO4 and (Na0.5R0.5)MO4:R′(R = Gd, La; R′ = Er, Tm, Yb; M = W, Mo) of the scheelite family / G.M.Kuzmicheva, A.V. Eremin, V.B. Rybakov, K.A. Subbotin, E.V.
Zharikov // Russ. J.Inorg. Chem. – 2009. – Т. 54 – № 6 – 854–863с.61. Tomaszewicz E. Thermal and magnetic properties of new scheelite typeCd1−3x□xGd2xMoO4 ceramic materials / E. Tomaszewicz, E. Filipek, H. Fuks, J.Typek // J. Eur. Ceram. Soc. – 2014. – Т. 34 – № 6 – 1511–1522с.62. Zhou M. Photoelectrodes Based upon Mo:BiVO4 Inverse Opals forPhotoelectrochemical Water Splitting / M.
Zhou, J. Bao, Y. Xu, J. Zhang, J. Xie, M.Guan, C. Wang, L. Wen, Y. Lei, Y. Xie // ACS Nano – 2014. – Т. 8 – № 7 – 7088–98с.63. Zhao C. Synthesis and photoluminescence properties of the high-brightness Eu3+doped M2Gd4(MoO4)7 (M = Li, Na) red phosphors / C. Zhao, X. Yin , F. Huang, Y.Hang // Journal of Solid State Chemistry – 2011 – T. 184 – 3190–3194c.64. Клевцова Р.Ф. Получение и структура кристаллов калий-европиевогомолибдата, KEu(MoO4)2 / Р.Ф. Клевцова, Л.П.
Козеева, П.В. Клевцов //Кристаллография – 1974. – Т. 19 – № 1 – 89–94с.65. Volkov V. Growth, Structure, and Evaluation of Laser Properties of LiYb(MoO4)2Single Crystal / V. Volkov, C. Cascales, A. Kling, C. Zaldo // Chem. Mater. – 2005.– T. 17 – 291-300c.66. C. Cascales. Structural, spectroscopic, and tunable laser properties of Yb3+-dopedNaGd(WO4)2 / C.
Cascales, M.D. Serrano, F. Esteban-Betegón, C. Zaldo, R. Peters,122K. Petermann, G. Huber, L. Ackermann, D. Rytz, C. Dupre, M. Rico, J. Liu, U.Griebner, V. Petrov // Phys. Rev. B – 2006. – T. 74 – 174114c.67. Hanuza J. Structure and vibrational dynamics of tetragonal NaBi(WO4)2 scheelitecrystal / J. Hanuza A. Benzar, A. Haznar, M. Maczka, A. Pietraszko, J.H. van derMaas // Vibrational Spectroscopy – 1996. – T. 12 – 25-36c.68. Трунов В.К. О новых модификациях двойных молибдатов калия и р.з.э. (TmLu) / В.К. Трунов, О.В. Кудин // Журн. неорган. химии. – 1974. – Т.
19 – №11 –3189-3190c.69. Morozov V.A. KNd(MoO4)2: a new incommensurate modulated structure in thescheelite family / V.A. Morozov, A.V. Arakcheeva, G. Chapuis, N. Guiblin, M.D.Rossell, G. Van Tendeloo // Chem. Mater. – 2006. – T. 18 – 4075-4082c.70. Arakcheeva A. The incommensurately modulated and partially orderedKSm(MoO4)2, a new scheelite-like structure / A. Arakcheeva, P. Pattison, G.Chapuis, M. Rossell, A.
Filaretov, V. Morozov, G. Van Tendeloo // Acta Cryst. B –2008. –T.64 – 160–171c.71. Nassau K. A Comprehensive Study of Trivalent Tungstates and Molybdates of theType L2(MO4)3 / K. Nassau, H. J. Levinstein, G. M. Loiacono // Journal of Physicsand Chemistry of Solids – 1965 – T. 26 – №12 – 1805- 1816с.72. Jamieson P.B.
Crystals structure of the transition-metal molybdates and tungstates,paramagnetic alpha-Nd2(MoO4)3 / P.B. Jamieson, S.C. Abrahams, J.L. Bernstein //Journal of Chemical Physics – 1969. – T. 50 – 86-94c.73. Schustereit T. Defect Scheelite-Type Lanthanoid(III) Ortho-Oxomolybdates(VI)Ln0.667(MoO4) (Ln = Ce, Pr, Nd, and Sm) and Their Relationship to Zircon and theNaTl-Type Structure / T.
Schustereit, S.L. Müller, T. Schleid, I. Hartenbach //Crystals – 2011. –T. 1 – 244-253c.74. Jeitschko W. Crystal structure of La2(MoO4)3, a new ordered defect Scheelite type /W. Jeitschko // Acta Crystallographica B – 1973. – T. 29 – 2074-2081c.75. Brixner L. H. Precision parameters of some Ln2(MO4)3-type rare earth molybdates /L.
H. Brixner, P. E. Bierstedt, A. W. Sleight, M.S. Licis // Materials Res. Bull. –1971. – T. 6 – 545–554c.76. Martinez-Garcia J. Validating the model of a (3+1)-dimensional incommensuratelymodulated structure as generator of a family of compounds for the Eu2(MoO4)3scheelite structure / J. Martinez-Garcia, A.
Arakcheeva, P. Pattison, V. Morozov, G.Chapuisa // Philosophical Magazine Letters – 2009. – T. 89. – 257c.12377. Hartenbach I. Z. Die Kristallstruktur von Samarium-Sesquimolybdat Sm2(MoO4)3 / I.Z. Hartenbach // Z. Anorg. Allg. Chem. – 2008. – T. 634 – 2044-2044c.78. Logvinovich D. Crystal Structure and Optical and Magnetic Properties of Pr2(MoO4)3/ D.
Logvinovich, A. Arakcheeva, P. Pattison, S. Eliseeva, P. Tome, I. Marozau, G.Chapuis // Inorg. Chem. – 2010. – Т. 49 –1587–1594с.79. Keve E.T. Ferroelectric Ferroelastic Paramagnetic beta-Gd2(MoO4)3 CrystalStructure of the Transition-Metal Molybdates and Tungstates / E.T. Keve, S.C.Abrahams, J.L. Bernstein // Journal of Chemical Physics – 1971. – Т. 54 – 31853194с.80.
Jeitschko W. A comprehensive X-ray study of the ferroelectric-ferroelastic andparaelectric-paraelastic phases of Gd2(MoO4)3 / W. Jeitschko // ActaCrystallographica B – 1972. – Т. 28 – 60-76с.81. Marinkovic B.A. Negative thermal expansion in Y2Mo3O12 / B.A. Marinkovic, P.M.Jardim, R.R.
de Avillez, F. Rizzo // Solid State Sci. – 2005. – Т. 7 – № 11 – 1377–1383с.82. Gates S.D. Polymorphism in yttrium molybdate Y2Mo3O12 / S.D. Gates, C. Lind //Solid State Chem. – 2007. – Т. 180 – 3510–3514c.83. Huang Q. Preparation of Tetragonal Defect Scheelite-Type RE2(MoO4)3 (RE = La toHo) by Precipitation Method / Q.
Huang, J.Z. Xu, W. Li // Solid State Ionics – 1989.– Т. 32-33 – №1 – 244–249c.84. Brixner L.H. Cell Dimensions of the Molybdates La2(MO4)3, Ce2(MO4)3, Pr2(MO4)3and Nd2(MO4)3 / L.H. Brixner, A.W. Sleight, M.S. Licis // Solid State Chem. Ionics –1972. – Т. 5 – 247-249c.85. Boulahya K. Synthesis, structural and magnetic characterization of a new scheeliterelated compound: Eu2Mo3O12 / K. Boulahya, M. Parrasand, J. M. González-Calbet //Eur. J. Inorg. Chem. – 2005.
– Т. 5 – 967–970c.86. Abrahams S.C. Ferroelectric-ferroelastic Tb2(MoO4)3, Crystal structure; temperaturedependence from 298 K through the transition at 436 K to the antiferroelectricparaelastic phase at 523 K / S.C. Abrahams, C. Svensson, J.L. Bernstein // Journal ofChemical Physics – 1980. – Т.
72 – 4278-4285c.87. Abrahams S.C. Ferroelectric-ferroelastic Tb2(MoO4)3, Room temperature crystalstructure of the transition-metal molybdates / S.C. Abrahams, C. Svensson, J.L.Bernstein // Journal of Chemical Physics – 1979. – Т. 71 – 5191-5195c.12488. Nassau K. Structural and phase relationships among trivalent tungstates andmolybdates / K. Nassau, J.W. Shiever, E.T. Keve // Solid State Chem.
– 1971. – Т. 3– 411-419c.89. Трунов В.К. Рентгенографическое исследование молибдата и вольфраматаскандия / В.К. Трунов, Н.П. Аношина, Л.H. Комиссарова // Журн. неорган.химии – 1967. – Т. 12 – 2856-2857c.90. Theobald F. R. Redetermination of the crystal structure of alpha Bi2O3.3MoO3 byneutron diffraction and the catalytic oxidation of propene / F.R. Theobald, A. Laarif// Materials Research Bulletin – 1985. – Т. 20 – 653-665c.91. Van den Elzen A.F.
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