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101.
102.
Mussel-inspired chemistry in producing mechanically robust and bioactive hydrogels as skin dressings
The development of hydrogels as skin dressings demonstrates a great potential in real life applications. To achieve this, the hydrogel has to conquer its natural poor mechanical strength, and to prolong its lifetime, antifatigue and self-healing properties originating from dynamic interactions are also required. As skin dressings, the hydrogel needs to maintain its ductility while pursuing the above mentioned properties. In this work, poly(ethylene glycol) diacrylate is used to produce skin dressings by reinforcing poly(ethylene glycol) diacrylate/alginate double network hydrogels with a crosslinker from mussel-inspired chemistry, which is 3,4-dihydroxy-l-phenylalanine. This crosslinking methodology significantly improved mechanical strength of the hydrogel, with 11,200% increase in compressive failure strength; it endowed the hydrogel with outstanding antifatigue and training strengthening properties that makes its mechanical strength increasing in a 50 cycles compressive test; the hydrogel showed excellent self-healing properties that in rheological characterization; it also displayed enhanced storage modulus after withstanding a shear strain up to 1100%; meanwhile, the hydrogel exhibited extreme ductility with an elastic modulus of only 10.90–16.53 kPa. 3,4-dihydroxy-l-phenylalanine also renders the hydrogel its inherent antioxidant activity, conductivity, and bioadhesiveness. Together with the highly transparent appearance, the hydrogels possess a great potential and practibility in the fields of skin dressings. 相似文献