Partial Molal Volumes of Sulphonic Acids in Water Solution

Diffusion coefficients of cationic and anionic dyes in aqueous buffer solutions have been measured by the modified diaphragm ceil method. The diffusion data obtained from the literature showed that the diffusion coefficients of simple organic compounds containing a sulphonate group are larger than those of the other compounds containing a carboxylate or a hydroxyl group, but that the diffusion coefficients of anionic dyes containing a sulphonate group are almost the same as those of cationic dyes. This was explained by the structural characteristics that a dye molecule is composed mainly of large hydrophobic groups, and therefore the existence of a small sulphonate group does not influence the water structure significantly.

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Viscosity B Coefficients for Some Homologous Series of Organic Electrolytes in Aqueons Solutions. The Effect of Ionic Groups

TamakiKunio¹,

KurachiHisashi²,

AkiyamaMitsuru³

et al. 1974

Bulletin of the Chemical Society of Japan

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The viscosity B coefficients for the three homologous series of sodium alkane carboxylates (acetate to butyrate), sodium n-alkyl sulfonates (methyl to hexyl), and n-alkylammonium chlorides (methyl to hexyl) in aqueous solutions at 25 °C have been determined. The B values increase linearly with the number of carbon atoms in the alkyl chains for each homologous series studied in this work, as well as for a homologous series of n-alkyl sulfate ions previously studied. In the case of the three kinds of organic anions with the same alkyl groups, the B values increase in the order: –COO−>>–SO3−>–OSO3−. The ion-solvent interaction effect, as estimated by the combination of the B values with the molal volume at an infinite dilution for ions, is positive for each carboxylate ion; however, it is negative for the lower alkyl sulfonate, alkyl sulfate and alkylammonium ions. From these facts, –COO− may be classified as an “electrostrictive structure-maker,” whereas, –SO3−, –OSO3−, and –NH3+ are “electrostrictive structure-breakers.” In this connection, the reported specific interactions of these ionic parts with simple counter-ions on the activity coefficients of organic electrolytes, the counter-ion binding of polyelectrolytes, and the effect of counter-ions on the critical micelle concentrations of long-chain electrolytes are briefly discussed on the basis of the change in water structure induced by both cations and anions in water.

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Partial Molal Volumes of Sulphonic Acids in Water Solution

Cited by 4 publications

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The influence of different electrolytes on the absorption of ionic surfactants in acetate fibers

The influence of different electrolytes on the absorption of ionic surfactants in acetate fibers

Structure correlation between diffusion coefficients of simple organic compounds and of anionic and cationic dyes in water

Viscosity B Coefficients for Some Homologous Series of Organic Electrolytes in Aqueons Solutions. The Effect of Ionic Groups

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