Coil-globule transition of poly(methyl methacrylate) in a mixed solvent

Abstract

From light scattering measurements the coil-globule transition has been observed for poly(methyl methacrylate) in the mixed solvent water+tert-butyl alcohol with molecular weight ${\mathit{M}}_{\mathit{w}}$=2.38×${10}^6$. Since the phase separation occurred very slowly for this system, the mean square radius of gyration 〈${\mathit{s}}^2$〉 and the second virial coefficient ${\mathit{A}}_2$ were determined reliably even far below the phase-separation temperature. A comparison of the observed 〈${\mathit{s}}^2$〉 with a theory for a contracted coil confirmed the coil-globule transition. The observed second virial coefficient had a minimum in the temperature region where 〈${\mathit{s}}^2$〉 approaches the value for the globule state.