Abstract
In this study, benefiting from the sensitive molecular conformation transversion in azobenzene, a new strategy for fabricating alginate gels with the abilities of splicing and photo-responsive mechanical adjustment is reported. Firstly, a 4,4’-azobis(benzoylhydrazide) (Azo-hydrazide) linker was used to crosslink alginate physically via the electrostatic interaction between hydrazide groups and carboxyl groups. It was then shaped and transferred in situ to a chemically crosslinked gel via 450 nm light irradiation. Under the irradiation, the molecular conformation change of azobenzene in the linker was able to form covalent bonds at the crosslinking points of the gels. Furthermore, the reversible conformation transformation of azobenzene was able to induce the increase and decrease of the storage modulus under irradiation with 365 nm light and 450 nm light, respectively, while also providing gel-like mechanical properties, depending upon the irradiation time and given wavelength. Meanwhile, the results also indicated that active groups could contribute to the splicing ability of the gel and construct a hollow cavity structure. It is believed that this work could provide a versatile strategy for preparing photo-responsive gels with reversibly tunable mechanical properties.
Highlights
Alginate has been widely applied to construct customized gel structures and biocompatible gel-based structures for bioresearch [1,2,3,4]
Azo-hydrazide with two hydrazide groups was chosen as a photo-responsive linker for the Azo-alginate gel
The Azo-hydrazide linker was synthesized according to a previous report [38]
Summary
Alginate has been widely applied to construct customized gel structures and biocompatible gel-based structures for bioresearch [1,2,3,4]. The rich carboxyl groups of alginate are capable of crosslinking via various physical interactions and chemical bonds to prepare gels. Compared to gels crosslinked by physical interactions, covalent bond-crosslinked alginate gels possess high structural stability and are more suitable for constructing gel structures [5,6,7,8,9]. To prepare the injectable and photo-crosslinking alginate gel, two types of functional groups need to be modified onto the alginate molecules: the aldehyde groups and the methylene groups. Aldehyde groups are used to form Schiff bases with amine-containing macromolecules, while methylene groups can react with each other under UV
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