Structure–Reactivity Relationships of Oxime–Oxalate/Glyoxylate/Ester Derivatives: Dual Photo/Thermal Initiators for Visible Light Polymerization and Composite Preparation
Tong Gao, Thybault De Monfreid, Ji Feng, Jing Zhang, Fabrice Morlet‐Savary, Céline Dietlin, Michael Schmitt, Frédéric Dumur, Jean‐Patrick Joly, Malek Nechab, Pu Xiao, Jacques Lalevée

TL;DR
A new photoinitiator, OP1, was developed that works efficiently under blue light and sunlight, enabling high-resolution 3D printing and offering lower toxicity than existing options.
Contribution
The novel synthesis and characterization of OP1, a dual photo/thermal initiator with low cytotoxicity and high performance in polymerization.
Findings
OP1 exhibits superior photoinitiation performance under blue LEDs and sunlight compared to commercial benchmarks.
OP1 enables high-resolution 3D printing and has high thermal initiation capability for composite preparation.
OP1 shows lower cytotoxicity than TPO on human endothelial cells.
Abstract
In this study, we reported the design, synthesis, and comprehensive evaluation of a series of nitro carbazole‐based oxime photoinitiators (OPIs, OP1: oxime oxalate, OP2: oxime glyoxylate), as a series of efficient Type I photoinitiators (PIs) for the free radical photopolymerization (FRP) of trimethylolpropane triacrylate (TMPTA) and ethoxylated trimethylolpropane triacrylate (ETPTA) under blue light‐emitting diodes and sunlight irradiation. Computational molecular modeling was employed to predict the effect of OPIs structures on the photoinitiation properties. The predictions suggest that OP1 had a higher propensity for decarboxylation and therefore a better photoinitiation behavior. Compared to OP2, OP3, and commercial benchmark photoinitiator TPO, OP1 exhibits exceptional photoinitiation performance when exposed to LED@405 nm, LED@450 nm, and sunlight. OP1 undergoes decarboxylation…
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Taxonomy
TopicsPhotopolymerization techniques and applications · Advanced Polymer Synthesis and Characterization · Dental materials and restorations
