A pyrrole-carbazole photoinitiator for radical and cationic visible light LED photopolymerization

Driven by the growing demand towards low cost and environmentally friendly curing processes, the synthesis of visible light absorbing photoinitiators has been a significant research direction in the field of photo -polymerization in the past couple of years. Herein, a novel synthesis route is introduced to obtain a bifunctional pyrrole-carbazole-based photoinitiator (ECMO) via one-step reaction. On account of its excellent absorption at 405 nm and the ability for hydrogen donation, ECMO can initiate free radical polymerization upon visible light exposure and forms colorless photopolymers. Notably, ECMO is further able to act as sensitizer for triar-ysulfonium salts and significantly extends the absorption window of the onium salts into the visible light spectral region. ECMO sensitized triarysulfonium salts show superior curing performance in cationic polymerization (e.g. higher final monomer conversion) compared to conventional isopropylthioxanthone/triarysulfonium hexa-fluorophosphate systems. In addition, thermogravimetric analysis shows that ECMO possesses exceptional thermal stability, which facilitates its practical application in photopolymerization processes.

Automated summary

Driven by the demand for low cost and environmentally friendly curing processes, the research on synthesis of visible light absorbing photoinitiators has been significant in the field of photo-polymerization. In this study, a novel synthesis route is introduced to obtain a bifunctional pyrrole-carbazole-based photoinitiator (ECMO), which can initiate free radical polymerization upon visible light exposure. ECMO also acts as a sensitizer for triar-ysulfonium salts, extending their absorption window into the visible light region and showing superior curing performance in cationic polymerization.