Molecularly Engineered Dual‐Crosslinked Hydrogel with Ultrahigh Mechanical Strength, Toughness, and Good Self‐Recovery
Chinese Academy of Sciences · Lanzhou Institute of Chemical Physics · +1 more institution
Abstract
A molecularly engineered dual-crosslinked hydrogel with extraordinary mechanical properties is reported. The hydrogel network is formed with both chemical crosslinking and acrylic–Fe(III) coordination; these, respectively, impart the elasticity and enhance the mechanical properties by effectively dissipating energy. The optimal hydrogel achieves a tensile stress of ca. 6 MPa at a large elongation ratio (>7 times), a toughness of 27 MJ m−3, and a stiffness of ca. 2 MPa, and has good self-recovery properties. As a service to our authors and readers, this journal provides supporting information supplied by the authors. Such materials are peer reviewed and may be re-organized for online delivery, but are not…
Citation impact
- FWCI
- 22.10
- Percentile
- 100%
- References
- 31
Authors
4- LPLin Peng
Chinese Academy of Sciences, Lanzhou Institute of Chemical Physics, University of Chinese Academy of Sciences
- SMShuanhong Ma
Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences, University of Chinese Academy of Sciences
- XWXiaolong Wang
Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences
- FZFeng ZhouCorresponding
Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences
Topics & keywords
- Toughness
- Materials science
- Ultimate tensile strength
- Stiffness
- Elongation
- Composite material
- Elasticity (physics)
- Self-healing hydrogels
- Affordable and clean energy