Vibrational modes and structure of (AgI)x (GeS1.5)100−x chalcohalide glasses |
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| Authors: | T. Petkova B. Monchev O. Kostadinova P. Petkov S.N. Yannopoulos |
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| Affiliation: | aInstitute of Electrochemistry and Energy Systems, BAS, Acad. G. Bonchev bl. 10, 1113 Sofia, Bulgaria;bFoundation for Research and Technology Hellas-Institute of Chemical Engineering and High Temperature Chemical Processes (FORTH/ICE-HT), P.O. Box 1414, GR-26504, Rio, Patras, Greece;cDepartment of Physics, University of Chemical Technology and Metallurgy, 8 Kl. Ohridski blvd., 1756 Sofia, Bulgaria |
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| Abstract: | We report a structural investigation of bulk Ge-rich Ge–S–AgI chalcohalide glasses. A vibrational spectroscopic study of the quaternary system (AgI)x (GeS1.5)100−x (0  xAgI 20) has been undertaken using infrared spectroscopy and Fourier transform Raman scattering. It was found that the GeS1.5 Raman spectrum is compatible with a glass structure composed of corner- and edge-sharing mixed GeSnGe4−n (n = 0–4) tetrahedra where units with n = 2–4 dominate, whilst the fraction of corner-sharing units are significantly lower than the corresponding fraction in the stoichiometric GeS2 glass. The addition of AgI has revealed a subtle but systematic effect in the structure of the Ge-rich glass matrix, manifested by mild decrease of the ES units and the concomitant increase of complex GeSnI4−n or GeSnGemI4-n−m tetrahedra whose vibrational modes form a continuum at low frequencies. Although, AgI seems to cause subtle structural changes due to the formation of Ge–I bonds, it is also evident that AgI does not act as a real modifier that would depolymerize appreciably the Ge–S network structure. |
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| Keywords: | Alloys Germanium Raman scattering Chalcohalides FTIR measurements Raman spectroscopy |
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