SOLUBLE COMPLEXES FROM POLY(ETHYLENE-OXIDE)-BLOCK-POLYMETHACRYLATE ANIONS AND N-ALKYLPYRIDINIUM CATIONS

Complexes from poly(ethylene oxide)-b-poly(sodium methacrylate) (PEO-b -PMANa) and N-alkylpyridinium bromides are water soluble, in marked co ntrast to those from poly(sodium methacrylate). These systems are stud ied using potentiometric titration, microcalorimetry, zeta-potential m easurement, light scattering and electron microscopy. Three regions (A -C) are observed with a complex from PEO-b-PMANa and cetylpyridinuim b romide (C16PyBr) when the composition of the mixture (Z = [C16PyBr]/[C OO-]) is varied. (A) At Z < 1 C16PyBr binds electrostatically to the p olyion to form soluble complex with a negative zeta-potential. (B) The size of the complex decreases and reaches minimum (o.d. 67 nm) at Z = 1 when zeta = 0. Those stoichiometric complexes are soluble and stabl e. They appear to be micelles with a core formed by C16PyBr neutralize d polyion chains and a shell of PEO chains. (C) With a further increas e in Z, the surfactant cations incorporate in the particles (zeta > 0) . The particles formed at saturating concentrations of C16PyBr are sph erical and remarkably monodisperse. Overall, these systems represent a new class of lyophilic colloids that exhibit combined properties of a mphiphilic block copolymers and polyelectrolyte-surfactant complexes.