Indigo carmine: A base and neutral electrolyte-mediated photoinitiator for 3D printing in high fidelity

“…[35] Figure 22 (a) 3D model of keyring and (b) 3D printed keyring (64.0 mm × 30.0 mm × 3.6 mm) using 15-DAAQ/TEAOH/R-Br (0.5%/2%/2%, wt %) as PISs. [35] In addition to this, Xiao et al [90] also investigated the application of indigo carmine (IDGCM) as a photosensitizer with for 3D printing of photopolymerization. IDGCM possesses excellent good water solubility, visible light sensitivity and biocompatibility, hence it can give the corresponding properties of photopolymerization and 3D printing.…”

“…Figure 23 Chemical structures of IDGCM, additive, and monomer/oligomers. [90] Figure 24. The top view of STL model file and the topography print cured using the PEGDA 700/water (80 %/20 %, wt) in the presence of IDGCM/Iod (0.5 %/2 %, wt) and 25 mM NaOH.…”

“…(30 × 30 × 15 mm, L × W × H). [90] In the process of photopolymerization 3D printing, the light transmitted through the solidified polymer layers is highly likely to trigger undesired lateral photopolymerization during the printing of subsequent layers and therefore leads to deteriorated print resolution. [91] Nonreactive light absorbers can improve print resolution by limiting light penetration, however, they also reduce printing speed.…”

Introduction of Photopolymerization Technology and Application

“…[35] Figure 22 (a) 3D model of keyring and (b) 3D printed keyring (64.0 mm × 30.0 mm × 3.6 mm) using 15-DAAQ/TEAOH/R-Br (0.5%/2%/2%, wt %) as PISs. [35] In addition to this, Xiao et al [90] also investigated the application of indigo carmine (IDGCM) as a photosensitizer with for 3D printing of photopolymerization. IDGCM possesses excellent good water solubility, visible light sensitivity and biocompatibility, hence it can give the corresponding properties of photopolymerization and 3D printing.…”

“…Figure 23 Chemical structures of IDGCM, additive, and monomer/oligomers. [90] Figure 24. The top view of STL model file and the topography print cured using the PEGDA 700/water (80 %/20 %, wt) in the presence of IDGCM/Iod (0.5 %/2 %, wt) and 25 mM NaOH.…”

“…(30 × 30 × 15 mm, L × W × H). [90] In the process of photopolymerization 3D printing, the light transmitted through the solidified polymer layers is highly likely to trigger undesired lateral photopolymerization during the printing of subsequent layers and therefore leads to deteriorated print resolution. [91] Nonreactive light absorbers can improve print resolution by limiting light penetration, however, they also reduce printing speed.…”

Introduction of Photopolymerization Technology and Application

“…4 In the literature, water-soluble PIs from monoacyl and bisacylphosphineoxide salts, dimethylamino-substituted monoacylphosphine oxides, dyes such as indigo carmine and naphthalimide derivatives have been reported. [9][10][11][12][13] So, the development of "greener" photopolymerization requires monomeric and polymeric PIs with high water solubility, non-toxicity, high photoinitiator efficiency and the ability to enhance the desired properties of the final productsa major challenge. One way to meet that challenge is to start with a known PI and to modify it or to use it to functionalize another structure.…”

“…4 In the literature, water-soluble PIs from monoacyl and bisacylphosphineoxide salts, dimethylamino-substituted monoacylphosphine oxides, dyes such as indigo carmine and naphthalimide derivatives have been reported. 9–13…”

A cyclopolymerizable, doubly Irgacure 2959 functionalized quaternary ammonium salt photoinitiator and its water-soluble copolymer with diallyldimethylammonium chloride

Photopolymerization Approach to Advanced Polymer Composites: Integration of Surface‐Modified Nanofillers for Enhanced Properties