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Bibliographic Details
Main Authors: Shi, Chenyang, Zorman, Marlo, Zhao, Xiao, Salmeron, Miquel B., Pfaendtner, Jim, Liu, Xiang Yang, Zhang, Shuai, De Yoreo, James
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2401.12400
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author Shi, Chenyang
Zorman, Marlo
Zhao, Xiao
Salmeron, Miquel B.
Pfaendtner, Jim
Liu, Xiang Yang
Zhang, Shuai
De Yoreo, James
author_facet Shi, Chenyang
Zorman, Marlo
Zhao, Xiao
Salmeron, Miquel B.
Pfaendtner, Jim
Liu, Xiang Yang
Zhang, Shuai
De Yoreo, James
contents The ability to form silk films on semiconductors, metals, and oxides or as free-standing membranes has motivated research into silk-based electronic, optical, and biomedical devices. However, the inherent disorder of native silk limits device performance. Here we report the creation of highly ordered two-dimensional (2D) silk fibroin (SF) layers on van der Waals solids. Using in situ atomic force microscopy, synchrotron-based infrared spectroscopy, and molecular dynamics simulations, we develop a mechanistic understanding of the assembly process. We show that the films consist of lamellae having an epitaxial relationship with the underlying lattice and that the SF molecules exhibit the same Beta-sheet secondary structure seen in the crystallites of the native form. By increasing the SF concentration, multilayer films form via layer-by-layer growth, either along a classical pathway in which SF molecules assemble directly into the lamellae or, at sufficiently high concentrations, along a two-step pathway beginning with formation of a disordered monolayer that subsequently converts into the crystalline phase. Kelvin probe measurements show that these 2D SF layers substantially alter the surface potential. Moreover, the ability to assemble 2D silk on both graphite and MoS2 suggests that it may provide a general platform for silk-based electronics on vdW solids.
format Preprint
id arxiv_https___arxiv_org_abs_2401_12400
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Two-dimensional silk
Shi, Chenyang
Zorman, Marlo
Zhao, Xiao
Salmeron, Miquel B.
Pfaendtner, Jim
Liu, Xiang Yang
Zhang, Shuai
De Yoreo, James
Materials Science
The ability to form silk films on semiconductors, metals, and oxides or as free-standing membranes has motivated research into silk-based electronic, optical, and biomedical devices. However, the inherent disorder of native silk limits device performance. Here we report the creation of highly ordered two-dimensional (2D) silk fibroin (SF) layers on van der Waals solids. Using in situ atomic force microscopy, synchrotron-based infrared spectroscopy, and molecular dynamics simulations, we develop a mechanistic understanding of the assembly process. We show that the films consist of lamellae having an epitaxial relationship with the underlying lattice and that the SF molecules exhibit the same Beta-sheet secondary structure seen in the crystallites of the native form. By increasing the SF concentration, multilayer films form via layer-by-layer growth, either along a classical pathway in which SF molecules assemble directly into the lamellae or, at sufficiently high concentrations, along a two-step pathway beginning with formation of a disordered monolayer that subsequently converts into the crystalline phase. Kelvin probe measurements show that these 2D SF layers substantially alter the surface potential. Moreover, the ability to assemble 2D silk on both graphite and MoS2 suggests that it may provide a general platform for silk-based electronics on vdW solids.
title Two-dimensional silk
topic Materials Science
url https://arxiv.org/abs/2401.12400