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Hassan, Torell, Börjesson, Doweidar (1992)
Structural changes of B2O3 through the liquid-glass transition range: A Raman-scattering study.Physical review. B, Condensed matter, 45 22
T. Bril (1976)
Raman spectroscopy of crystalline and vitreous borates
R. Bubnova, S. Volkov, B. Albert, S. Filatov (2017)
Borates—Crystal Structures of Prospective Nonlinear Optical Materials: High Anisotropy of the Thermal Expansion Caused by Anharmonic Atomic Vibrations, 7
A. Sobol, V. Shukshin, V. Lukanin, L. Moiseeva (2018)
High-Temperature Raman Scattering Study of the Li2O–B2O3–MoO3 System: I. Detailed Comparison of the Structures of Molten Lithium and Potassium MolybdatesInorganic Materials, 54
(1992)
Structure of molten B 2 O 3 -rich alkalimetal borates studied by Raman spectroscopy
E. Kamitsos, M. Karakassides, G. Chryssikos (1987)
A Vibrational Study of Lithium Borate Glasses with High Li2o ContentPhysics and Chemistry of Glasses, 28
(1992)
Structure of molten B2O3-rich alkalimetal borates studied by Raman spectroscopy, Neorg
Y. Voronko, A. Sobol, V. Shukshin
Raman Spectroscopy Study of the Phase Transformations of LiB 3 O 5 and Li 2 B 4 O 7 during Heating and Melting
(2013)
Raman spectroscopy study of the phase transformations of LiB3O5 and Li2B4O7 during heating and melting, Inorg
Jianyu Zhang, Jie Yin, Yong Jiang, Fei Du, S. Pan, Xing Li, J. Pan (2019)
Growth, luminescence and scintillation properties of Pr3+, Ce3+ co-doped Li6Y(BO3)3 crystalRadiation Measurements
(1983)
Kristallokhimiya bezvodnykh boratov (Crystal Chemistry of Anhydrous Borates), Moscow: Mosk
Y. Voronko, A. Sobol, V. Shukshin (2012)
Structure of boron-oxygen groups in crystalline, molten, and glassy alkali-metal and alkaline-earth metaboratesInorganic Materials, 48
T. Yano, Noboru Kunimine, S. Shibata, M. Yamane (2003)
Structural investigation of sodium borate glasses and melts by Raman spectroscopy. III. Relation between the rearrangement of super-structures and the properties of glassJournal of Non-crystalline Solids, 321
(1988)
High-temperature Raman scattering study of the melt structure and crystallization processes, Rost Krist
Y. Voron’ko, A. Sobol, V. Shukshin (2009)
Spectral diagnostics of vapor composition over molten Na2WO4 and Na2O-BaO-B2O3 systemInorganic Materials, 45
(1992)
Structural changes of B 2 O 3 through the liquidglass transition range: a Raman-scattering study
R. Arivuselvi, A. Kumar (2016)
Growth and characterization of inorganic non linear optical Barium Calcium Borate (BCB) crystalMaterials Letters, 178
M. Knitel, P. Dorenbos, C. Eijk, B. Plasteig, B. Viana, A. Kahn-Harari, D. Vivien (2000)
Photoluminescence, and scintillation/thermoluminescence yields of several Ce3+ and Eu2+ activated boratesNuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment, 443
T. Yano, Noboru Kunimine, S. Shibata, M. Yamane (2003)
Structural investigation of sodium borate glasses and melts by Raman spectroscopy.: I. Quantitative evaluation of structural unitsJournal of Non-crystalline Solids, 321
Y. Voron’ko, A. Sobol, V. Shukshin (2012)
Study of a structure of boron–oxygen complexes in the molten and vapor states by Raman and luminescence spectroscopiesJournal of Molecular Structure, 1008
Y. Voronko, A. Sobol, V. Shukshin (2013)
Raman spectroscopy study of the phase transformations of LiB3O5 and Li2B4O7 during heating and meltingInorganic Materials, 49
(1988)
High-temperature Raman scattering study of the melt structure and crystallization processes
T. Yano, Noboru Kunimine, S. Shibata, M. Yamane (2003)
Structural investigation of sodium borate glasses and melts by Raman spectroscopy. II. Conversion between BO4 and BO2O− units at high temperatureJournal of Non-crystalline Solids, 321
Y. Voron’ko, A. Sobol, V. Shukshin (2009)
Spectral diagnostics of vapor composition over molten Na 2 WO 4 and Na 2
—The structure and typical behavior of boron–oxygen groups in Li2O–B2O3 melts and glasses have been studied by high-temperature Raman spectroscopy. Under conditions similar to those of lithium triborate crystal growth, we have detected the formation of BO2 monomers, which influence the growth process. The results have been compared to those for structural groups of pure boron oxide.
Inorganic Materials – Springer Journals
Published: Jun 25, 2020
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