High strength pure chitosan hydrogels via double crosslinking strategy

Chitosan (CS) hydrogels have been widely used throughout basic tissue engineering and regenerative medicine research and it is very desirable to develop advanced CS materials with superior mechanical and topographical properties for more extensive applications. Herein, we present the design of a double crosslinking pure CS hydrogel material via the synergic effect of the chemical covalent network, hydrophobic interactions, enhanced intermolecular hydrogen bonding and the formation of the CS crystallite. The resultant pure CS hydrogel possesses increases in strength and toughness by two orders of magnitude (fracture energy ∼7.733 J m-2; maximal compression stress ∼10.81 MPa, elastic modulus ∼1.33 MPa). We utilize1H NMR and FT-IR to prove the success of chemical modification. The results of Raman spectra and WXRD have proved the existence of physical interaction between CS hydrogels and microcrystals, thus explaining the enhancement mechanism of mechanical strength of CS hydrogel. The live and death results also show that MSCs can grow well on CS hydrogels, and the results of CCK-8 indicate low cytotoxicity of CS hydrogels. This CS hydrogel shows great potential applications in tissue engineering and regenerative medicine.