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Macromolecular Engineered Multifunctional Room-Temperature Phosphorescent Polymers through Reversible Deactivation Radical Polymerization.

Ruoqing ZhaoChen WangKeer HuangLei LiWenru FanQixuan ZhuHuihui MaXuewen WangZhenhua WangWei Huang
Published in: Journal of the American Chemical Society (2023)
Despite the intensive research in room-temperature phosphorescent (RTP) polymers, the synthesis of RTP polymers with well-defined macromolecular structures and multiple functions remains a challenge. Herein, reversible deactivation radical polymerization was demonstrated to offer a gradient copolymer (GCP) architecture with controlled heterogeneities, which combines hard segment and flexible segment. The GCPs would self-assemble into a multiphase nanostructure, featuring tunable stretchability, excellent RTP performance, and intrinsic healability without compromising light emission under stretching. The mechanical performance is tunable on demand with elongation at break ranging from 5.0% to 221.7% and Young's modulus ranging from 0.5 to 225.0 MPa.
Keyphrases
  • room temperature
  • light emitting
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  • energy transfer
  • cancer therapy
  • middle aged
  • quantum dots
  • cell wall