Reactions at Polymer Interfaces: Transitions from Chemical to Diffusion-Control and Mixed Order Kinetics

Abstract

We study reactions between end-functionalized chains at a polymer-polymer interface. For small chemical reactivities (the typical case) the number of diblocks formed, Rt, obeys 2nd order chemically controlled kinetics, Rt t, until interfacial saturation. For high reactivities (e.g. radicals) a transition occurs at short times to 2nd order diffusion-controlled kinetics, with Rt t/ t for unentangled chains while t/ t and t1/2 regimes occur for entangled chains. Long time kinetics are 1st order and controlled by diffusion of the more dilute species to the interface: Rt t1/4 for unentangled cases, while Rt t1/4 and t1/8 regimes arise for entangled systems. The final 1st order regime is governed by center of gravity diffusion, Rt t1/2.

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