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Circular 3D printing of high-performance photopolymers through dissociative network design

Bo Yang, Tiantian Ni, Jingjun Wu, Zizheng Fang, Kexuan Yang, Ben Lin He, Xing‐Qun Pu, Guancong Chen, Chujun Ni, Di Chen, Qian Zhao, W. Li, Sujing Li, Hao Li, Ning Zheng, Tao Xie

2025Science76 citationsDOI

Abstract

One approach for closed-loop plastics recycling relies on reverting polymers back into monomers because one can then make new plastics without loss of properties. This depolymerization requirement restricts the molecular design to making polymers with high mechanical performance. We report a three-dimensional (3D) printing chemistry through stepwise photopolymerization by forming dithioacetal bonds. The polymerized network can be transformed back into a photoreactive oligomer by dissociation of the dithioacetal bonds. This network-oligomer transformation is reversible, therefore allowing circular 3D printing using the same material. Our approach offers the flexibility of making modular adjustments in the design of the network backbone of a polymer. This allows access to fully recyclable elastomers, crystalline polymers, and rigid glassy polymers with high mechanical toughness, making them potentially suitable for diverse applications.

Topics & Concepts

PhotopolymerPolymerMonomerElastomerMaterials scienceOligomerPolymerizationToughness3D printingModular designDissociation (chemistry)Flexibility (engineering)Polymer sciencePolymer chemistryComposite materialComputer scienceChemistryOrganic chemistryOperating systemStatisticsMathematicsPolymer composites and self-healingAdvanced Polymer Synthesis and CharacterizationPhotopolymerization techniques and applications
Circular 3D printing of high-performance photopolymers through dissociative network design | Litcius