Litcius/Paper detail

Bridging polymer architecture, printability, and properties by digital light processing of block copolycarbonates

Krista Schoonover, Chia‐Min Hsieh, Mani Sengoden, Naushad Ahmed, Manivannan Sivaperuman Kalairaj, Taylor H. Ware, Donald J. Darensbourg, Emily Pentzer, Peiran Wei

2024Chemical Science9 citationsDOIOpen Access PDF

Abstract

, present an appealing option for sustainable polymeric materials owing to their renewable feedstock and degradable characteristics. An ongoing challenge in working with aPCs is modifying their mechanical properties to meet specific demands. Herein, we report that monomer ratio and polymer architecture of aPCs impact not only printability by digital light processing (DLP) additive manufacturing, but also dictate the thermomechanical and degradation properties of the printed objects. We found that block copolymers exhibit tailorable thermomechanical properties ranging from soft elastomeric to strong and brittle as the proportion of hard blocks increases, whereas the homopolymer blend failed to print objects and statistical copolymers delaminated or overcured, displaying the weakest mechanical properties. In addition, the hydrolytic degradation of the prints was demonstrated under various conditions, revealing that BCP prints containing a higher proportion of hard blocks had slower degradation and that statistical copolymer prints degraded more slowly than their BCP counterparts. This study underscores that polymer composition and architecture both play key roles in resin printability and bulk properties, offering significant prospects for advancing sustainable materials in additive manufacturing through polymer design.

Topics & Concepts

Bridging (networking)ArchitecturePolymerMaterials scienceBlock (permutation group theory)Sustainable designChemical engineeringPolymer scienceComputer architectureProcess engineeringDigital Light ProcessingNanotechnologyComputer scienceComposite materialEngineeringArtVisual artsArtificial intelligenceMathematicsGeometryProjectorSustainabilityEcologyComputer networkBiologyAdditive Manufacturing and 3D Printing TechnologiesPhotopolymerization techniques and applicationsCarbon dioxide utilization in catalysis
Bridging polymer architecture, printability, and properties by digital light processing of block copolycarbonates | Litcius