Publication | Closed Access
Optimization of 4D polymer printing within a massively parallel flow-through photochemical microreactor
32
Citations
40
References
2016
Year
EngineeringChemical CompositionResponsive PolymersBiofabricationChemistryPolymer PrintingPolymersPolymer TechnologyPolymer ProcessingPrinted ElectronicsNanolithographyPhotopolymer NetworkMicrofluidicsPolymer ChemistryBiophysicsNanolithography MethodMaterials ScienceFabrication Technique3D Bioprinting3D PrintingParallel Tip-based PhotolithographyMicrofabricationSelf-assemblyPolymer SciencePolymer CharacterizationBrush Polymer PatternsMedicineFunctional Polymer
Brush polymer patterns, where the position (<italic>x</italic>,<italic>y</italic>), height (<italic>z</italic>), and chemical composition of each feature in an array were controlled independently, were prepared by combining massively parallel tip-based photolithography, microfluidics, and photochemical radical polymerizations.
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