Growing silk fibroin in advanced materials for food security

Author(s)

Sun, Hui; Marelli, Benedetto

Abstract

Abstract This perspective provides an overview of the micro-/nanofabrication methods developed for structural biopolymers, highlighting recent advances in the rapid and ease construction of complex and multifunctional silk fibroin-based devices by integrating top-down manufacturing with bottom-up molecular self-assembly. Of particular interest is the development of a new nanofabrication strategy that employs templated crystallization to direct silk fibroin folding and assembly from a suspension of disordered, random coil molecules to ordered, hierarchical mesostructured materials. Such advancements in structural biopolymers fabrication provide the basis for engineering a new generation of technical materials that can be interfaced with food and plants.

Date issued

2021-01-19

URI

https://hdl.handle.net/1721.1/136736

Department

Massachusetts Institute of Technology. Department of Civil and Environmental Engineering

Publisher

Springer International Publishing

Citation

Sun, Hui and Marelli, Benedetto. 2021. "Growing silk fibroin in advanced materials for food security."

Version: Author's final manuscript