A team of researchers from the University of Texas at Austin have developed a novel photopolymer resin that makes high-resolution visible light curing significantly faster. The panchromatic ‘rapid-cure’ material is curable in four different colors of light – violet, blue, green, and red – and contains a monomer, a photoredox catalyst, two co-initiators, and an […]
Photochemical Methods for Peptide Macrocyclisation - Raynal - 2021 - Chemistry – A European Journal - Wiley Online Library
Using 3D printing as a research tool for materials discovery - ScienceDirect
Multi-physics simulation and experimental study of the reaction kinetics process of oxygen inhibition zone formation in constrained-surface stereolithography process - ScienceDirect
Buffalo researchers develop new ferroelectric metamaterial for SLA 3D printing - 3D Printing Industry
Berkeley researchers use novel 3D printed polymer lattices as concrete reinforcements - 3D Printing Industry
Application of 3D bioprinting in the prevention and the therapy for human diseases
Small‐Molecule Quenchers for Förster Resonance Energy Transfer: Structure, Mechanism, and Applications - Fang - 2022 - Angewandte Chemie International Edition - Wiley Online Library
Volumetric additive manufacturing via tomographic reconstruction
Mechanism diagram of the preparation of the BB@HAH@CS@ZnO composite
Texas researchers develop novel 'rapid-cure' visible light resin to rival UV-based SLA - 3D Printing Industry
Morphology map-guided identification of bijel ink for producing conductive porous structures - ScienceDirect
JNE, Free Full-Text
JNE, Free Full-Text
JNE, Free Full-Text
News: Energy & the Environment