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Formation, Structure, and Mechanical Performance of Silk Nanofibrils Produced by Heat‐Induced Self‐Assembly

Yuelong Xiao, Yawen Liu, Wenwen Zhang, Ping Qi, Jing Ren, Ying Pei, Shengjie Ling

2020Macromolecular Rapid Communications19 citationsDOI

Abstract

The heat-induced self-assembly of silk fibroin (SF) is studied by combing fluorescence assessment, infrared nanospectroscopy, wide-angle X-ray scattering, and Derjaguin-Muller-Toporov coupled with atomic force microscopy. Several fundamental issues regarding the formation, structure, and mechanical performance of silk nanofibrils (SNFs) under heat-induced self-assembly are discussed. Accordingly, SF in aqueous solution is rod-like in shape and not micellar. The formation of SNFs occurs through nucleation-dependent aggregation, but the assembly period is variable and irregular. SF shows inherent fractal growth, and this trend is critical for the short-term assembly. The long-term assembly of SF, however, mainly involves an elongation growth process. SNFs produced by different methods, such as ethanol treatment and heat incubation, have similar secondary structure and mechanical properties. These investigations improve the in-depth understanding of fundamental issues related to self-assembly of SNFs, and thus provide inspiration and guidance in designing of silk nanomaterials.

Topics & Concepts

SILKFibroinMaterials scienceNucleationSelf-assemblyElongationNanotechnologyChemical engineeringNanomaterialsComposite materialChemistryUltimate tensile strengthEngineeringOrganic chemistrySilk-based biomaterials and applicationsBiochemical and Structural CharacterizationPolymer Surface Interaction Studies
Formation, Structure, and Mechanical Performance of Silk Nanofibrils Produced by Heat‐Induced Self‐Assembly | Litcius