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Toughening Wet‐Spun Silk Fibers by Silk Nanofiber Templating

Ya Yao, Benjamin J. Allardyce, Rangam Rajkhowa, Dylan Hegh, Si Qin, Ken Aldren S. Usman, Pablo Mota‐Santiago, Jizhen Zhang, Peter A. Lynch, Xungai Wang, David L. Kaplan, Joselito M. Razal

2021Macromolecular Rapid Communications24 citationsDOIOpen Access PDF

Abstract

Abstract Regenerated silk fibers typically fall short of silkworm cocoon fibers in mechanical properties due to reduced fiber crystal structure and alignment. One approach to address this has been to employ inorganic materials as reinforcing agents. The present study avoids the need for synthetic additives, demonstrating the first use of exfoliated silk nanofibers to control silk solution crystallization, resulting in all‐silk pseudocomposite fibers with remarkable mechanical properties. Incorporating only 0.06 wt% silk nanofibers led to a ≈44% increase in tensile strength (over 600 MPa) and ≈33% increase in toughness (over 200 kJ kg −1 ) compared with fibers without silk nanofibers. These remarkable properties can be attributed to nanofiber crystal seeding in conjunction with fiber draw. The crystallinity nearly doubled from ≈17% for fiber spun from pure silk solution to ≈30% for the silk nanofiber reinforced sample. The latter fiber also shows a high degree of crystal orientation with a Herman's orientation factor of 0.93, a value which approaches that of natural degummed B. mori silk cocoon fiber (0.96). This study provides a strong foundation to guide the development of simple, eco‐friendly methods to spin regenerated silk with excellent properties and a hierarchical structure that mimics natural silk.

Topics & Concepts

SILKNanofiberMaterials scienceCrystallinityComposite materialFiberToughnessUltimate tensile strengthSynthetic fiberCrystallizationNatural fiberPolymer scienceChemical engineeringEngineeringSilk-based biomaterials and applicationsSilkworms and Sericulture ResearchElectrospun Nanofibers in Biomedical Applications
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