Mb. Huglin et al., COMPLEX-FORMATION BETWEEN POLY(4-VINYLPYRIDINIUM CHLORIDE) AND POLY[SODIUM(2-ACRYLAMIDO-2-METHYL PROPANE SULFONATE)] IN DILUTE AQUEOUS-SOLUTION, Polymer, 37(7), 1996, pp. 1211-1215
Polyelectrolyte complexes (PEG) have been formed by mixing dilute aque
ous solutions of the oppositely charged polyelectrolytes poly[sodium(2
-acrylamido-2-methyl propane sulfonate)] (PAMPSNa) and poly(4-vinylpyr
idinium chloride) (PVPHCl). Over the entire range of feed compositions
examined, a compact precipitate resulted. For many feed compositions,
gravimetric analysis of the complex coupled with ultraviolet analysis
of supernatant liquids demonstrated departures from stoichiometry. It
was established that the composition of the complex was dependent upo
n the order of mixing: when PVPHCl was added to PAMPSNa, complexes con
tained approximately equimolar quantities of each precursor, whereas t
he complex comprised a significantly greater ratio of polycationic to
polyanionic units when the order of addition was reversed. PEC formati
on in the presence of added salts was investigated also. Non-reacting
solutions having a total polymer concentration of 12.3 gdm(-3) could b
e prepared in ca. 1.8 molal aqueous solutions of NaCl, NaBr and LiBr,
but at lower salt concentrations PEC were formed due to insufficient s
hielding of ionic charges. Analysis of PVPHCl, PAMPSNa and PEC via dif
ferential scanning calorimetry and nuclear magnetic resonance spectros
copy established glass transition temperatures for the precursors only
. It was concluded that glass transition temperatures for the complexe
s could not be detected due to the high density of ionic crosslinking.