Abstract
On the basis of results obtained by the method of theoretical modeling, the spectra of water in solutions are interpreted as the sums of the spectra of water molecules associated with one and two molecules of the solvent. The concentration, isotopic, and temperature variations of the spectra investigated fully confirm the proposed interpretation.
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References
E. Greinacher, W. Luttke, and R. Mecke, Z. Elektrochem., 59, 1, 23, 1955.
M. O. Bulanin, Candidate 's Dissertation, Leningrad State University, 1958.
A. N. Sidorov, Opt. i spektr. 8, 51, 1960.
G. V. Yukhnevich, and A. V. Karyakin, DAN SSSR, 156, 681, 1964.
G. V. Yukhnevich, Collection: Optics and Spectroscopy [in Russian], vol. 2, p. 223, 1963.
A. V. Iogansen, and G. A. Kurchki, Opt. i spektr., 13, 480, 1962.
M. Van Thiel, E. D. Becker, and G. C. Pimentel, J. Chem. Phys., 27, 468, 1957.
A. A. Chaikhorskii, V. M. Vdovenko, K. I. Efimova, and L. M. Belov, Radiokhimiya, 3, 295, 1962.
N. C. Deno, and H. E. Berkheimer, J. Chem. Eng. Data, 5, 1, 1960.
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Yukhnevich, G.V., Karyakin, A.V. & Petrov, A.V. Vibrational spectra of water in solutions. J Appl Spectrosc 3, 102–107 (1965). https://doi.org/10.1007/BF00652706
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DOI: https://doi.org/10.1007/BF00652706