The effect of cation type, ionic strength and temperature on the complexation between polyallylammonium cation and polystyrenesulfonate anion

[Display omitted] •Complexation between PAH and PSS was studied in various salt solutions.•The influence of ionic strength, temperature and addition order was examined.•At lower molar ratios primary polyelectrolyte complexes were formed, while close to equivalence the flocculation occurred.•The comp...

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Published in:Colloids and surfaces. A, Physicochemical and engineering aspects Physicochemical and engineering aspects, 2016-12, Vol.510, p.159-168
Main Authors: Požar, Josip, Salopek, Jasmina, Poldrugač, Maja, Kovačević, Davor
Format: Article
Language:English
Subjects:
Ion hydration
Ion-specific effects
Microcalorimetry
Polyelectrolyte complexation
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Summary:[Display omitted] •Complexation between PAH and PSS was studied in various salt solutions.•The influence of ionic strength, temperature and addition order was examined.•At lower molar ratios primary polyelectrolyte complexes were formed, while close to equivalence the flocculation occurred.•The complexation was predominantly entropically driven.•A correlation between obtained reaction and cation hydration enthalpies was noticed. The reaction between polyallylammonium cation and polystyrenesulfonate anion was investigated in alkali-metal chloride (MCl, M=Li, Na, K, Rb, Cs), sodium perchlorate and tetraethylammonium chloride solutions by means of microcalorimetry, potentiometry, DLS and spectrophotometry. The influence of ionic strength, temperature and addition order on the course of interpolyelectrolyte neutralisation was examined. At lower molar ratios of positively to negatively charged monomers and at 25°C primary polyelectrolyte complexes were formed. Close to equivalence their flocculation occurred. The complexation was predominantly entropically driven, however a correlation between obtained reaction and cation hydration enthalpies was noticed. The composition of the precipitates at equimolar monomer ratio in chloride salt solutions did not significantly depend on the addition order up to 1.0moldm−3 salt concentration. In contrast, the ratio of oppositely charged monomers in precipitates prepared in NaClO4 (c/moldm−3≥0.5) was affected by the addition order in a wide temperature range. The increase in electrolyte concentration and the decrease in temperature led to more pronounced asymmetric neutralisation. The equilibrium establishment in NaClO4(aq) proceeded extremely slowly. Even at high perchlorate concentrations the final reaction product was virtually insoluble polysalt.
ISSN:0927-7757
1873-4359
DOI:10.1016/j.colsurfa.2016.01.039