AIChE Journal, Vol.54, No.4, 1073-1087, 2008
Sernibatch RAFT polymerization for producing ST/BA copolymers with controlled gradient composition profiles
With controlled/living radical copolymerization, the composition profile along polymer chains becomes a tunable parameter in preparing copolymer products for novel materials properties. In this work, a novel series of styrene/butyl acrylate (St/BA) copolymers with precisely designed composition profiles (uniform, linear gradient, tanh gradient, and triblock with a linear gradient mid-block) were produced using a semibatch reversible addition-fragmentation chain transfer copolymerization mediated by benzyl dithioisobutyrate. The comonomer feeding rate was programmed based on a kinetic model with the targeted composition profile as an objective functions. The experimental composition and molecular weight profiles agreed very well with the model predictions. The polymer molecular weight distributions were narrow with polydispersity index values about 1.3. The amount of dead chains was controlled below 10%. The glass transition behaviors of the St/BA copolymers were evaluated and their T-g values were found to be in an order of uniform < linear gradient < tanh gradient < triblock with 10 degrees C for uniforrn and 140 degrees C for triblock copolymers. (c) 2008 American Institute of Chemical Engineers.
Keywords:semibatch reactor system;computer-aided design;RAFT polymerization;copolymer composition;gradient copolymer;block copolymer;polymerization kinetics