Springer Nature
Nature Materials
volume 24 issue 4 pages 599-606

Stiff and self-healing hydrogels by polymer entanglements in co-planar nanoconfinement

Publication typeJournal Article
Publication date2025-03-07
Springer Nature
scimago Q1
wos Q1
SJR14.204
CiteScore61.8
Impact factor38.5
ISSN14761122, 14764660
Abstract

Many biological tissues are mechanically strong and stiff but can still heal from damage. By contrast, synthetic hydrogels have not shown comparable combinations of properties, as current stiffening approaches inevitably suppress the required chain/bond dynamics for self-healing. Here we show a stiff and self-healing hydrogel with a modulus of 50 MPa and tensile strength up to 4.2 MPa by polymer entanglements in co-planar nanoconfinement. This is realized by polymerizing a highly concentrated monomer solution within a scaffold of fully delaminated synthetic hectorite nanosheets, shear oriented into a macroscopic monodomain. The resultant physical gels show self-healing efficiency up to 100% despite the high modulus, and high adhesion shear strength on a broad range of substrates. This nanoconfinement approach allows the incorporation of novel functionalities by embedding colloidal materials such as MXenes and can be generalized to other polymers and solvents to fabricate stiff and self-healing gels for soft robotics, additive manufacturing and biomedical applications.

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Liang Chen et al. Stiff and self-healing hydrogels by polymer entanglements in co-planar nanoconfinement // Nature Materials. 2025. Vol. 24. No. 4. pp. 599-606.
GOST all authors (up to 50) Copy
Liang Chen, Dudko V., Khoruzhenko O., Hong X., Lv Z. P., Tunn I., Umer M., Timonen J. V. I., Linder M., Breu J., Ikkala O., Zhang H. Stiff and self-healing hydrogels by polymer entanglements in co-planar nanoconfinement // Nature Materials. 2025. Vol. 24. No. 4. pp. 599-606.
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TY - JOUR
DO - 10.1038/s41563-025-02146-5
UR - https://www.nature.com/articles/s41563-025-02146-5
TI - Stiff and self-healing hydrogels by polymer entanglements in co-planar nanoconfinement
T2 - Nature Materials
AU - Liang Chen
AU - Dudko, Volodymyr
AU - Khoruzhenko, Olena
AU - Hong, Xiaodan
AU - Lv, Zhong Peng
AU - Tunn, Isabell
AU - Umer, Muhammad
AU - Timonen, Jaakko V. I.
AU - Linder, Markus
AU - Breu, J.
AU - Ikkala, Olli
AU - Zhang, Hang
PY - 2025
DA - 2025/03/07
PB - Springer Nature
SP - 599-606
IS - 4
VL - 24
SN - 1476-1122
SN - 1476-4660
ER -
BibTex |
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@article{2025_Liang Chen,
author = {Liang Chen and Volodymyr Dudko and Olena Khoruzhenko and Xiaodan Hong and Zhong Peng Lv and Isabell Tunn and Muhammad Umer and Jaakko V. I. Timonen and Markus Linder and J. Breu and Olli Ikkala and Hang Zhang},
title = {Stiff and self-healing hydrogels by polymer entanglements in co-planar nanoconfinement},
journal = {Nature Materials},
year = {2025},
volume = {24},
publisher = {Springer Nature},
month = {mar},
url = {https://www.nature.com/articles/s41563-025-02146-5},
number = {4},
pages = {599--606},
doi = {10.1038/s41563-025-02146-5}
}
MLA
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Liang Chen, et al. “Stiff and self-healing hydrogels by polymer entanglements in co-planar nanoconfinement.” Nature Materials, vol. 24, no. 4, Mar. 2025, pp. 599-606. https://www.nature.com/articles/s41563-025-02146-5.