Temperature dependence of the low- and high-frequency Raman scattering from liquid water.

Autor: Walrafen, G. E., Fisher, M. R., Hokmabadi, M. S., Yang, W.-H.
Předmět:
Zdroj: Journal of Chemical Physics; 12/15/1986, Vol. 85 Issue 12, p6970, 13p
Abstrakt: Low frequency Δν=0–350 cm-1, Raman intensity data were obtained from liquid water between 3.5 and 89.3 °C using holographic grating double and triple monochromators. The spectra were Bose–Einstein (BE) corrected, I/(1+n), and the total integrated (absolute) contour intensities were treated by an elaboration of the Young–Westerdahl (YW) thermodynamic method, assuming conservation of hydrogen-bonded (HB) and nonhydrogen-bonded (NHB=bent and/or stretched, O–H O) nearest-neighbor O–O pairs. A ΔH°1 value of 2.6±0.1 kcal/mol O–H ··· O or 5.2±0.2 kcal/mol H2O (11 kJ/mol O–H ··· O, or 22 kJ/mol H2O) resulted for the HB→NHB process. This intermolecular value agrees quantitatively with Raman and infrared ΔH° values from the one- and two-phonon OH-stretching regions, and from molecular dynamics, depolarized light scattering, neutron scattering, and ultrasonic absorption, thus indicating a common process. A population involving partial covalency of, i.e., charge transfer into, the H ··· O units of linear and/or weakly bent hydrogen bonds, O–H ··· O; is transformed into a second high energy population involving bent, e.g., 150° or less, and/or stretched, e.g., 3.2 Å, but otherwise strongly cohesive O–H O interactions. All difference spectra from the fundamental OH-stretching contours cross at the X(Z,X+Z)Y isobestic frequency of 3425 cm-1. Also, total integrated Raman intensity decreases occurring below 3425 cm-1 with temperature rise were found to be proportional to the total integrated intensity increases above 3425 cm-1, indicating conservation among the HB and NHB OH-stretching classes. From the enthalpy of vaporization of water at 0 °C, and the ΔH°1 of 2.6 kcal/mol O–H ··· O, the additionalenthalpy, ΔH°2,... [ABSTRACT FROM AUTHOR]
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