期刊
ADVANCED FUNCTIONAL MATERIALS
卷 17, 期 13, 页码 2229-2237出版社
WILEY-V C H VERLAG GMBH
DOI: 10.1002/adfm.200601136
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Robust ultrathin multilayer films of silk fibroin were fabricated by spin coating and spin-assisted layer-by-layer assembly and their mechanical properties Were studied both in tensile and compression modes for the first time. The ultrathin films were characterized by a high elastic modulus of 6-8 GPa- (after treatment with methanol) with the ultimate tensile strength reaching MPa. The superior toughness is times higher than that usually observed for conventional, polymer composites (328 kJ m(-3) for the silk material studied, here versus typical values of < 100 kJ m(-3)). These outstanding properties are suggested to be caused by the gradual development of the self-reinforcing microstructure of highly crystalline beta-sheets, serving as reinforcing fillers and physical crosslinks, a process that is well known for bulk silk materials but it is demonstrated here to occur in ultrathin films as well, despite their limited dimensions. However, the confined state within films thinner than the lengths of the extended domains causes a significantly reduced elasticity which should be considered in the design of nanosized films from silk materials. Such regenerated silk fibrbirt with outstanding mechanical strength have potential applications in microscale films biodevices, biocompatible implants, and synthetic coatings for artificial skin.
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