Infrared and Raman spectra of Ga₂O₃–P₂O₅ glasses

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• 作者：Ilieva ; Dora ; Jivov ; Bojidar ; Bogachev ; Georgi ; Petkov ; Christo ; Penkov ; Ivan ; Dimitriev ; Yanko
• 关键词：R110 ; I160 ; P150
• 刊名：Journal of Non-Crystalline Solids
• 出版年：2001
• 期刊代码：50_00223093
• 类别：ms
• 出版时间：May, 2001
• 卷：283
• 期：1-3
• 页码：195-202
• 文件大小：303 K

摘要

The structure of xGa₂O₃(1−x)P₂O₅(0.15≤x≤0.4) glasses is studied by infrared (IR) and Raman spectroscopy. The results of quantitative electron microprobe analysis reveal that two sets of glasses are formed with compositions corresponding to the gallium meta and pyrophosphates. Crystalline Ga(PO₃)₃ metaphosphate is also obtained and its IR and Raman spectra recorded in order to examine the spectral differences glass → crystal. The IR spectra of metaphosphate glasses show bands at 1250, 930, 775 and 485 cm⁻¹ which, are assigned to the ν_asPO₂,ν_asPOP, ν_sPOP and δPO₂ modes of the metaphosphate chain. In the Raman spectra are found patterns due to symmetric modes of PO₂ terminal and POP bridging bonds as well as features due to vibrations of GaO₄ tetrahedra and Ga–O–P bridges. Comparisons of the spectra of glasses with those of the crystal indicate that the interaction of Ga with the polyphosphate anions is more covalent in the glasses. The bands observed in the spectra of pyrophosphate glasses provide evidence for the involvement of ortho-, pyro- and polyphosphate groupings in the glass structure. The Raman spectra of both sets of glasses display intense low frequency bands, which we assigned to a symmetric bending of Ga–O–P bridging bonds involving four-coordinated gallium atoms. It is concluded that structure of Ga₂O₃–P₂O₅ glasses is a highly polymerized network consisting of a variety of phosphate anions cross-linked by GaO₄ tetrahedra. This account on glass structure is consistent with the great glass forming ability of the compositions studied.