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Co-initiating-system dual-mechanism drives the design of printable entangled polymer multinetworks

Author

Listed:
  • An Wei

    (Northwest University)

  • Qian Wang

    (Northwest University)

  • Jupen Liu

    (Chongqing Normal University)

  • Yuchan Huang

    (Northwest University)

  • Haoxiang Li

    (Northwest University)

  • Zhenhao Zhu

    (Northwest University)

  • Tao Wang

    (South China University of Technology)

  • You Yu

    (Northwest University)

Abstract

Entanglement significantly enhances the mechanical performance and functionality of both natural and synthetic materials. However, developing straightforward, versatile strategies for creating high-performance entangled polymer materials remains a challenge. Here, a co-initiating-system dual-mechanism strategy is designed for fabricating printable entangled polymer multinetworks. This thermal-light dual-initiation process benefits the synthesis of high-molecular-weight polymers and promotes the rapid formation of multinetworks within hydrogels. The resulting long polymer chains enable hydrogels with higher mechanical performance, lower stress relaxation, and activation energy compared to short polymer chain-contained samples. Such a method proves more effective than traditional self-thickening and strengthening techniques for enhancing hydrogel entanglements and is also compatible with additive manufacturing, enabling the design of complex 2D webs with adaptive mechanical performance and capable of detecting and sensing applications. This work provides an effective strategy for designing high-performance entangled polymer materials, which are set to impact numerous fields, from advanced sensing to material science and beyond.

Suggested Citation

  • An Wei & Qian Wang & Jupen Liu & Yuchan Huang & Haoxiang Li & Zhenhao Zhu & Tao Wang & You Yu, 2025. "Co-initiating-system dual-mechanism drives the design of printable entangled polymer multinetworks," Nature Communications, Nature, vol. 16(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-59669-3
    DOI: 10.1038/s41467-025-59669-3
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    1. Danming Zhong & Zhicheng Wang & Junwei Xu & Junjie Liu & Rui Xiao & Shaoxing Qu & Wei Yang, 2024. "A strategy for tough and fatigue-resistant hydrogels via loose cross-linking and dense dehydration-induced entanglements," Nature Communications, Nature, vol. 15(1), pages 1-12, December.
    2. Chujun Ni & Di Chen & Yu Yin & Xin Wen & Xiaolan Chen & Chen Yang & Guancong Chen & Zhuo Sun & Jihang Wen & Yurong Jiao & Chunyang Wang & Ning Wang & Xiangxing Kong & Shihong Deng & Youqing Shen & Rui, 2023. "Shape memory polymer with programmable recovery onset," Nature, Nature, vol. 622(7984), pages 748-753, October.
    3. Xiaozhuang Zhou & Yijun Zheng & Haohui Zhang & Li Yang & Yubo Cui & Baiju P. Krishnan & Shihua Dong & Michael Aizenberg & Xinhong Xiong & Yuhang Hu & Joanna Aizenberg & Jiaxi Cui, 2023. "Reversibly growing crosslinked polymers with programmable sizes and properties," Nature Communications, Nature, vol. 14(1), pages 1-9, December.
    4. Ruixin Zhu & Dandan Zhu & Zhen Zheng & Xinling Wang, 2024. "Tough double network hydrogels with rapid self-reinforcement and low hysteresis based on highly entangled networks," Nature Communications, Nature, vol. 15(1), pages 1-11, December.
    5. Yan Zhang & Yafei Wang & Ying Guan & Yongjun Zhang, 2022. "Peptide-enhanced tough, resilient and adhesive eutectogels for highly reliable strain/pressure sensing under extreme conditions," Nature Communications, Nature, vol. 13(1), pages 1-12, December.
    6. Zizheng Fang & Hongfeng Mu & Zhuo Sun & Kaihang Zhang & Anyang Zhang & Jiada Chen & Ning Zheng & Qian Zhao & Xuxu Yang & Feng Liu & Jingjun Wu & Tao Xie, 2024. "3D printable elastomers with exceptional strength and toughness," Nature, Nature, vol. 631(8022), pages 783-788, July.
    7. Jeong-Yun Sun & Xuanhe Zhao & Widusha R. K. Illeperuma & Ovijit Chaudhuri & Kyu Hwan Oh & David J. Mooney & Joost J. Vlassak & Zhigang Suo, 2012. "Highly stretchable and tough hydrogels," Nature, Nature, vol. 489(7414), pages 133-136, September.
    8. Lindsey A. Doyle & Brittany Takushi & Ryan D. Kibler & Lukas F. Milles & Carolina T. Orozco & Jonathan D. Jones & Sophie E. Jackson & Barry L. Stoddard & Philip Bradley, 2023. "De novo design of knotted tandem repeat proteins," Nature Communications, Nature, vol. 14(1), pages 1-17, December.
    9. Cong Wang & Ping Zhang & Wenqing Xiao & Jiaqi Zhao & Mengting Shi & Hongqiu Wei & Zhouhu Deng & Baolin Guo & Zijian Zheng & You Yu, 2020. "Visible-light-assisted multimechanism design for one-step engineering tough hydrogels in seconds," Nature Communications, Nature, vol. 11(1), pages 1-9, December.
    10. Linglan Fu & Lan Li & Qingyuan Bian & Bin Xue & Jing Jin & Jiayu Li & Yi Cao & Qing Jiang & Hongbin Li, 2023. "Cartilage-like protein hydrogels engineered via entanglement," Nature, Nature, vol. 618(7966), pages 740-747, June.
    11. Zhengyu Xu & Jiajun Lu & Di Lu & Yiran Li & Hai Lei & Bin Chen & Wenfei Li & Bin Xue & Yi Cao & Wei Wang, 2024. "Rapidly damping hydrogels engineered through molecular friction," Nature Communications, Nature, vol. 15(1), pages 1-11, December.
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