关键字:alginate; fluorescent fiber; high performance mechanics; super-strong fiber; super-tough biomaterial
摘要:The combination of multiple physical properties is of great importance for widening the application scenarios of biomaterials. It remains a great challenge to fabricate biomolecules-based fibers gaining both mechanical strength and toughness which are comparable to natural spider dragline silks. Here, by mimicking the structure of dragline silks, a high-performance fluorescent fiber Alg-TPEA-PEG is designed by non-covalently cross-linking the polysaccharide chains of alginate with AIEgen-based surfactant molecules as the flexible contact points. The non-covalent cross-linking network provides sufficient energy-dissipating slippage between polysaccharide chains, leading to Alg-TPEA-PEG with highly improved mechanical performances from the plastic strain stage. By successfully transferring the extraordinary mechanical performances of polysaccharide chains to macroscopic fibers, Alg-TPEA-PEG exhibits an outstanding breaking strength of 1.27 GPa, Young's modulus of 34.13 GPa, and toughness of 150.48 MJ m-3, which are comparable to those of dragline silk and outperforming other artificial materials. More importantly, both fluorescent and mechanical properties of Alg-TPEA-PEG can be well preserved under various harsh conditions, and the fluorescence and biocompatibility facilitate its biological and biomedical applications. This study affords a new biomimetic designing strategy for gaining super-strong, super-stiff, and super-tough fluorescent biomaterials. A tetraphenylethene-containing surfactant is designed as the flexible contact point between polysaccharide chains of alginate for fabricating fluorescent high-performance fibers. Such fibers gain super-strong, super-stiff, and super-tough mechanical properties, wide tolerance to pH and temperature, insulation properties, and good biosafety. This study affords a new design strategy for gaining biomacromolecule-based materials with a combination of multiple physicochemical properties. image
卷号:20
期号:50
是否译文:否