Journal article
Raman spectroscopic study of ion pairing of alkali metal ions with carbonate and sulfate in aqueous solutions
Australian Journal of Chemistry, Vol.53(10), pp.887-890
2000
Abstract
Raman spectra of carbonate and sulfate ions were recorded in aqueous solutions in the presence of large excesses of M'X (M'+ = Na+, K+ or Cs+; X- = OH- or Cl-) at 25°C. The positions of the v1(A1′) symmetric stretching vibrations for both CO32- (at ∼1060 cm-1) and SO42- (at ∼980 cm-1) shift, by up to 10 cm-1, to lower frequencies and broaden (by up to 25%) with increasing concentrations of M'X. The shifts are slightly smaller for SO42- than for CO32- and also differ somewhat between M'OH and M'Cl solutions. The changes in the peak positions, which are indicative of contact ion pairing, show a clear dependence on the nature of the cation. However, the observed order, Na+ < K+ < Cs+, is directly opposite to the magnitudes of the (overall) ion-pairing constants. This anomaly is thought to be due to decreased hydration of Cs+ cf. Na+ in these highly concentrated, water-deficient solutions. Some implications of this for understanding ionic interactions in concentrated electrolyte solutions are suggested.
Details
- Title
- Raman spectroscopic study of ion pairing of alkali metal ions with carbonate and sulfate in aqueous solutions
- Authors/Creators
- P. Sipos (Author/Creator)L. Bolden (Author/Creator)G. Hefter (Author/Creator)P.M. May (Author/Creator)
- Publication Details
- Australian Journal of Chemistry, Vol.53(10), pp.887-890
- Publisher
- Commonwealth Scientific and Industrial Research Organization Publishing
- Identifiers
- 991005541843407891
- Murdoch Affiliation
- School of Chemical and Mathematical Science
- Language
- English
- Resource Type
- Journal article
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