Add to ORKGMask Projection Microstereolithography (MPμSL) selectively cures entire layers of photopolymer to create three-dimensional parts with features on the micron scale. The resolution and scale of MPμSL are ideal for fabricating tissue engineering scaffolds with designed mesostructure. While MPμSL have excellent resolution, there are few biocompatible materials that are compatible with the vat photopolymerization processes. A novel diacrylate functionalized Pluronic L-31 block-copolymer and poly(propylene glycol diacrylate) were synthesized and processed with MPμSL. The resulting structures were analyzed for biocompatibility, as well as accuracy and mechanical strength to assess feasibility for use in tissue engineering scaffold fabricat...
Microstereolithography is a method used for rapid prototyping of polymeric and ceramic components. ...
Current studies on scaffold fabrication have focused on overcoming the limitations imposed by the me...
The production of 3D scaffolds with well-controlled architecture at the micrometer-scale is a fundam...
Mask Projection Microstereolithography (MPμSL) selectively cures entire layers of photopolymer to c...
Microstereolithography (μSL) technology can fabricate three-dimensional (3D) tissue engineered scaff...
Microstereolithography (μSL) technology can fabricate three-dimensional (3D) tissue engineered sca...
Due to its ability to create complex cellular geometries with extremely fine resolution, mask proje...
Thesis: S.M., Massachusetts Institute of Technology, Department of Materials Science and Engineering...
This article presents a micro-manufacturing method for direct, projection printing of 3- dimensiona...
Materials play a key role in tissue engineering for the construction of 3-dimensional scaffolds that...
Tissue engineering, which is the study of generating biological substitutes to restore or replace ti...
Microstereolithography is a rapidly developing technique for the generation of 3D structures by the ...
The technologies employed for the preparation of conventional tissue engineering scaffolds restrict ...
Conventional methods for fabricating three-dimensional (3-D) tissue engineering scaffolds have subst...
Construction of biodegradable, three-dimensional scaffolds for tissue engineering has been previousl...
Microstereolithography is a method used for rapid prototyping of polymeric and ceramic components. ...
Current studies on scaffold fabrication have focused on overcoming the limitations imposed by the me...
The production of 3D scaffolds with well-controlled architecture at the micrometer-scale is a fundam...
Mask Projection Microstereolithography (MPμSL) selectively cures entire layers of photopolymer to c...
Microstereolithography (μSL) technology can fabricate three-dimensional (3D) tissue engineered scaff...
Microstereolithography (μSL) technology can fabricate three-dimensional (3D) tissue engineered sca...
Due to its ability to create complex cellular geometries with extremely fine resolution, mask proje...
Thesis: S.M., Massachusetts Institute of Technology, Department of Materials Science and Engineering...
This article presents a micro-manufacturing method for direct, projection printing of 3- dimensiona...
Materials play a key role in tissue engineering for the construction of 3-dimensional scaffolds that...
Tissue engineering, which is the study of generating biological substitutes to restore or replace ti...
Microstereolithography is a rapidly developing technique for the generation of 3D structures by the ...
The technologies employed for the preparation of conventional tissue engineering scaffolds restrict ...
Conventional methods for fabricating three-dimensional (3-D) tissue engineering scaffolds have subst...
Construction of biodegradable, three-dimensional scaffolds for tissue engineering has been previousl...
Microstereolithography is a method used for rapid prototyping of polymeric and ceramic components. ...
Current studies on scaffold fabrication have focused on overcoming the limitations imposed by the me...
The production of 3D scaffolds with well-controlled architecture at the micrometer-scale is a fundam...
