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Mesoscale structure development reveals when a silkworm silk is spun

Quan Wan, Mei Yang, Jiaqi Hu, Fang Lei, Yajun Shuai, Jie Wang, Chris Holland, Cornelia Rodenburg, Mingying Yang, Mingying Yang, Mingying Yang

2021Nature Communications31 citationsDOIOpen Access PDF

Abstract

Silk fibre mechanical properties are attributed to the development of a multi-scale hierarchical structure during spinning. By careful ex vivo processing of a B. mori silkworm silk solution we arrest the spinning process, freezing-in mesoscale structures corresponding to three distinctive structure development stages; gelation, fibrilization and the consolidation phase identified in this work, a process highlighted by the emergence and extinction of 'water pockets'. These transient water pockets are a manifestation of the interplay between protein dehydration, phase separation and nanofibril assembly, with their removal due to nanofibril coalescence during consolidation. We modeled and validated how post-draw improves mechanical properties and refines a silk's hierarchical structure as a result of consolidation. These insights enable a better understanding of the sequence of events that occur during spinning, ultimately leading us to propose a robust definition of when a silkworm silk is actually 'spun'.

Topics & Concepts

SILKSpinningCoalescence (physics)Materials scienceConsolidation (business)Mesoscale meteorologyNanotechnologyComposite materialPhysicsAccountingBusinessAstrobiologyMeteorologySilk-based biomaterials and applicationsNeurobiology and Insect Physiology ResearchSurface Modification and Superhydrophobicity