Publication detail
Dynamic Responsive Formation of Nanostructured Fibers in a Hydrogel Network: A Molecular Dynamics Study
ŽÍDEK, J. MILCHEV, A. JANČÁŘ, J.
Original Title
Dynamic Responsive Formation of Nanostructured Fibers in a Hydrogel Network: A Molecular Dynamics Study
Type
journal article in Web of Science
Language
English
Original Abstract
In an effort to study natural fiber formation, such as, e.g., spider silk, we present a model, which is capable of forming biomimetic fibrillar nanostructure from a hydrogel micellar network. The latter consists of interacting atomic groups which form cores of micelles, and of flexible chains forming the shells of the micelles. Micelles are connected in a compact network by linearly stretched chains. The structural elements of the network can be transformed during deformation from micellar into fibrillary type and their evolution is found to depend significantly on strain rate. Our model suggests a set of conditions suitable for the formation of nanostructured fibrillar network. It demonstrates that a fibrillar structure is only formed upon sufficiently fast stretching while, in contrast, the micellar gel structure is preserved, if the material is pulled slowly. We illustrate this key aspect by a minimalistic model of only four chains as part of the whole network, which provides a detailed view on the mechanism of fibril formation. We conclude that such a simplified structure has similar functionality and is probably responsible for the formation of nano-structured molecular fibrils in natural materials.
Keywords
hydrogel; molecular dynamics; relaxation; deformation; nanostructured; network; self-assembly
Authors
ŽÍDEK, J.; MILCHEV, A.; JANČÁŘ, J.
Released
26. 2. 2020
Publisher
Frontiers Media
Location
LAUSANNE
ISBN
2296-2646
Periodical
Frontiers in Chemistry
Year of study
8
Number
1
State
Swiss Confederation
Pages from
1
Pages to
15
Pages count
15
URL
Full text in the Digital Library
BibTex
@article{BUT166270,
author="Jan {Žídek} and Andrey {Milchev} and Josef {Jančář}",
title="Dynamic Responsive Formation of Nanostructured Fibers in a Hydrogel Network: A Molecular Dynamics Study",
journal="Frontiers in Chemistry",
year="2020",
volume="8",
number="1",
pages="1--15",
doi="10.3389/fchem.2020.00120",
issn="2296-2646",
url="https://www.frontiersin.org/articles/10.3389/fchem.2020.00120/full"
}