| Abstract: | Poly(α‐hydroxy acrylic acid) (PHA) and poly(acrylicacid) (PAA) gels were prepared by irradiating the respective 15 wt% aqueous solutions with γ‐rays. Swelling ratios for PHA gel were measured as a function of pH and divalent cation (Mg2+, Ca2+, Mn2+, Co2+, Ni2+, Cu2+) concentration C2 in the external solution to provide a comparison with the results for PAA gels. It was found that the swelling ratio of PHA gel steeply increases between pH 2 and 4, followed by a gradual swelling in the higher pH region. The corresponding steep swelling of PAA gel was observed at pH 3–6. Cation specificity in the equilibrium swelling ratio at a lower C2 value (1.0 × 10−3 M) was approximately consistent with the binding selectivity in the solution system. Typically, the swelling ratio of PHA gel in the presence of Ca2+ was significantly lower than in the Mg2+ system, while the difference was slight for PAA gel. The response of the swelling ratio to changes in pH and C2 was analysed as a first order relaxation to estimate the time constants. The (de)swelling kinetics measured by both the pH and C2 jump were qualitatively interpreted in terms of main‐chain stiffness and intermolecular hydrogen bonding in the respective polymers. © 2000 Society of Chemical Industry |
