Vat photopolymerization technologies are promising 3D printing techniques in the field of additive manufacturing, which requires high performance and affordable photoinitiating systems (PIS). In this paper, we introduce a complex PIS based on safranine as photosensitizer and two redox additives. The photocycling mechanism is explored via laser flash photolysis (LFP) and its reactivity is investigated through real-time Fourier transform infrared spectroscopy (RT-FTIR). A model which predicts with good accuracy the change in conversion with both time and light intensity is proposed. Cure depth experi-ments are conducted and the critical energy (Ec) and penetration depth (Dp) are established for the resin used. The relationship between these parameters and the corresponding RT-FTIR results was highlighted through the role of the conversion at the gel point, allowing optimization of the formulation. Finally, high resolution complex pieces are printed with the resin, whose composition was tailored in accordance with our studies, demonstrating the viability of this PIS in digital light processing (DLP) 3D printing.
The Cover Feature represents the photochemical cycle involved in a new three‐component initiating system based on safranine O. Upon green‐light exposure, initiating radicals are produced and start acrylate photopolymerization, making this system suitable for digital light processing (DLP) 3D printing of complex objects (such as an Eiffel Tower). More information can be found in the Article by B. Metral et al. on page 1109 in Issue 11, 2019 (DOI: 10.1002/cptc.201900167).
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