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Aerobic mechanochemical reversible-deactivation radical polymerization

Author

Listed:
  • Haoyang Feng

    (Northwestern Polytechnical University)

  • Zhe Chen

    (Fudan University)

  • Lei Li

    (Northwestern Polytechnical University)

  • Xiaoyang Shao

    (Northwestern Polytechnical University)

  • Wenru Fan

    (Northwestern Polytechnical University)

  • Chen Wang

    (Northwestern Polytechnical University)

  • Lin Song

    (Northwestern Polytechnical University)

  • Krzysztof Matyjaszewski

    (Carnegie Mellon University)

  • Xiangcheng Pan

    (Fudan University)

  • Zhenhua Wang

    (Northwestern Polytechnical University)

Abstract

Polymer materials suffer mechano-oxidative deterioration or degradation in the presence of molecular oxygen and mechanical forces. In contrast, aerobic biological activities combined with mechanical stimulus promote tissue regeneration and repair in various organs. A synthetic approach in which molecular oxygen and mechanical energy synergistically initiate polymerization will afford similar robustness in polymeric materials. Herein, aerobic mechanochemical reversible-deactivation radical polymerization was developed by the design of an organic mechano-labile initiator which converts oxygen into activators in response to ball milling, enabling the reaction to proceed in the air with low-energy input, operative simplicity, and the avoidance of potentially harmful organic solvents. In addition, this approach not only complements the existing methods to access well-defined polymers but also has been successfully employed for the controlled polymerization of (meth)acrylates, styrenic monomers and solid acrylamides as well as the synthesis of polymer/perovskite hybrids without solvent at room temperature which are inaccessible by other means.

Suggested Citation

  • Haoyang Feng & Zhe Chen & Lei Li & Xiaoyang Shao & Wenru Fan & Chen Wang & Lin Song & Krzysztof Matyjaszewski & Xiangcheng Pan & Zhenhua Wang, 2024. "Aerobic mechanochemical reversible-deactivation radical polymerization," Nature Communications, Nature, vol. 15(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-50562-z
    DOI: 10.1038/s41467-024-50562-z
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    References listed on IDEAS

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    1. Alexis Theodorou & Evelina Liarou & David M. Haddleton & Iren Georgia Stavrakaki & Panagiotis Skordalidis & Richard Whitfield & Athina Anastasaki & Kelly Velonia, 2020. "Protein-polymer bioconjugates via a versatile oxygen tolerant photoinduced controlled radical polymerization approach," Nature Communications, Nature, vol. 11(1), pages 1-11, December.
    2. Qifeng Mu & Kunpeng Cui & Zhi Jian Wang & Takahiro Matsuda & Wei Cui & Hinako Kato & Shotaro Namiki & Tomoko Yamazaki & Martin Frauenlob & Takayuki Nonoyama & Masumi Tsuda & Shinya Tanaka & Tasuku Nak, 2022. "Force-triggered rapid microstructure growth on hydrogel surface for on-demand functions," Nature Communications, Nature, vol. 13(1), pages 1-10, December.
    3. Changshun Chen & Jianxin Chen & Huchen Han & Lingfeng Chao & Jianfei Hu & Tingting Niu & He Dong & Songwang Yang & Yingdong Xia & Yonghua Chen & Wei Huang, 2022. "Perovskite solar cells based on screen-printed thin films," Nature, Nature, vol. 612(7939), pages 266-271, December.
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