Markus J. Buehler scite author profile

A variety of artificial spinning methods have been applied to produce regenerated silk fibers; however, how to spin regenerated silk fibers that retain the advantages of natural silks in terms of structural hierarchy and mechanical properties remains challenging. Here, we show a bioinspired approach to spin regenerated silk fibers. First, we develop a nematic silk microfibril solution, highly viscous and stable, by partially dissolving silk fibers into microfibrils. This solution maintains the hierarchical structures in natural silks and serves as spinning dope. It is then spun into regenerated silk fibers by direct extrusion in the air, offering a useful route to generate polymorphic and hierarchical regenerated silk fibers with physical properties beyond natural fiber construction. The materials maintain the structural hierarchy and mechanical properties of natural silks, including a modulus of 11 ± 4 GPa, even higher than natural spider silk. It can further be functionalized with a conductive silk/carbon nanotube coating, responsive to changes in humidity and temperature.

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The mechanics and design of a lightweight three-dimensional graphene assembly

Qin

et al. 2017

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Plasticity and toughness in bone

Ritchie¹,

Buehler²,

Hansma³

2009

315

255

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Markus J. Buehler

Nanofibrils in nature and materials engineering

Structure and mechanics of interfaces in biological materials

Polymorphic regenerated silk fibers assembled through bioinspired spinning

The mechanics and design of a lightweight three-dimensional graphene assembly

Plasticity and toughness in bone

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