Free-volume change in volume phase transition of polyacrylamide gel as studied by positron annihilation: Salt dependence

Variation of free-volume parameters-average radius size, number concentration, and size distribution-of a polyacrylamide (PAAm) gel containing 4 mol % carboxylate anions is studied during a volume phase transition (VPT) caused by a change of sodium chloride (NaCl) concentration. A positron annihilation lifetime technique is used for the determination of the free-volume characteristics. The measurement is performed in an acetone-water 3 : 2 (v/v) [0.27 : 0.73 (mol/mol)] mixed solvent at 20°C, and the free-volume parameters deduced from the analysis of a positron annihilation curve are utilized. An average free-volume size of the swollen PAAm gel, ϳ 0.32 nm in radius, almost agrees with that of the mixed solvent for a corresponding salt concentration, while the size of the collapsed gel, which is ϳ 0.28 nm in radius, is smaller than that of the mixed solvent. The results for the collapsed gel indicate that the hydrogen bond plays a significant role in the nanoscopic environment. The radius of the free-volume of the swollen PAAm gel seems to be influenced by the composition between acetone and water. An inhomogeneity of the nanoscopic structure inside the PAAm gels is discussed in terms of a dispersion of a size distribution of the free-volume. It is concluded that a change of the nanoscopic environment of the PAAm gel during the VPT can be monitored through the free-volume parameters obtained by the positron annihilation lifetime technique.