INTERACTION OF CALCIUM-ION AND MALEIC-ACID COPOLYMER

Interaction between Ca2+ ion and poly(styrene-alt-maleic acid) was studied by using a Ca2+ ion sensitive electrode. The Ca2+ activity had a peak at a degree of neutralization of 0.5 and decreased with increasing Ca(OH)(2) concentration beyond it when the polymer solution was neutralized with Ca(OH)(2). The decrease in the Ca2+ activity was not observed when the polymer concentration was very low. The counter ion condensation theory did not hold for this solution except in the case of an extremely dilute solution. The additivity rule for Ca2+ was confirmed for this solution. When the maleic acid copolymer was neutralized with both Ca(OH)(2) and KOH, the Ca2+ activity had a peak at a degree of neutralization of 0.5 when neutralization with KOH was less than 0.3 and the Ca2+ activity decreased more drastically than that neutralized with only Ca(OH)(2). The appearance of the peak of the Ca2+ activity at a degree of neutralization of 0.5 was independent of the ratio of Ca2+ concentration to polymer concentration or absolute Ca2+ concentration, but depended on the degree of ionization, i.e., linear electric charge density on the polymer because of ionization of the carboxyl groups. Interpretations of the behavior of the Ca2+ activity are discussed.