Study of contact ion pairs of supersaturated magnesium sulfate solutions using Raman scattering of levitated single droplets

Yun Hong Zhang, Chak K. Chan

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101 Scopus citations


Significant retardation of the evaporation rate of levitated aqueous MgSO4 droplets has been found at high concentrations using an electrodynamic balance. Raman spectroscopy was used to study the structural changes, in particular, the formation of contact ion pairs, in supersaturated aqueous MgSO4 droplets at ambient temperatures. As the relative humidity (RH) decreases, single levitated droplets lose water and become supersaturated. A molar water-to-solute ratio as low as 1.54 was obtained, facilitating the study of contact ion pairs of unhydrated Mg2+ and SO42- ions in MgSO4 solutions. The characteristics of the ν1-SO42- band change as a function of the water-to-solute ratio. Overall, a frequency shift from 983 to 1007 cm-1 and an increase of the full width at half-height from 12 to 54 cm-1 of the ν1-SO42- band were observed when the water-to-solute molar ratio decreased from 17.29 to 1.54. Most of the changes occur at a ratio smaller than 6, instead of at the saturation ratio of 15.60. These changes are attributed to the formation of contact ion pairs with different structures. A chain structure based on the contact ion pair of bidentate was proposed. Formation of close contact ion pairs and chain structures can explain the retardation of evaporation of supersaturated MgSO4 droplets observed in previous experiments. On the basis of the comparisons of the Raman spectra of MgSO4 and (NH4)2SO4, we assigned the shoulder appearing at 995 cm-1 in bulk MgSO4 studies to the contact ion pairs instead of the solvent-separated ion pairs. © 2000 American Chemical Society.
Original languageEnglish (US)
Pages (from-to)9191-9196
Number of pages6
JournalJournal of Physical Chemistry A
Issue number40
StatePublished - Oct 12 2000
Externally publishedYes

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Generated from Scopus record by KAUST IRTS on 2023-07-06

ASJC Scopus subject areas

  • Physical and Theoretical Chemistry


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