Catalytic, Sulfur-Free Chain Transfer Agents that Alter the Mechanical Properties of Crosslinked Photopolymers

12 April 2023, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Thermosetting materials generated by photopolymerization are inherently highly crosslinked and suffer from significant shrinkage stress, are often brittle, and have a limited range of mechanical properties. Various classes of chain transfer agents (CTAs) have been investigated and developed to reduce the crosslinking density of photopolymers by terminating kinetic chains and initiating new chains in situ. Although CTAs are successful in manipulating the mechanical properties of photopolymers, they are traditionally consumed during the polymerization and are therefore required in high loadings (up to 20 wt% of total formulation). Moreover, traditional CTAs frequently contain sulfur which is malodorous and can create unstable formulations. Presented here is a catalytic, sulfur-free CTA that can be added in ppm quantities to exist-ing commercial monomer feedstocks to create photopolymers similar to those prepared using traditional CTAs, but at 10,000x lower loadings. These catalysts, which are based on macrocyclic cobaloximes, were found to tunably reduce the molecular weight of the kinetic chain proportional to catalyst loading. It was shown, using only commercial monomers, that this catalyst could reduce the glass transition temperature (Tg), rubbery modulus (E’rubbery), and stiffness.

Keywords

photopolymers
catalysis
controlled free-radical polymerization

Supplementary materials

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Title
Catalytic, Sulfur-Free Chain Transfer Agents that Alter the Mechanical Properties of Crosslinked Photopolymers
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Supporting information
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