Robust Biocompatible Fibers from Silk Fibroin Coated MXene Sheets

Ken Aldren S. Usman; Ya Yao; Christine Jurene O. Bacal; Jizhen Zhang; Karyn L. Jarvis; Peter A. Lynch; Pablo Mota‐Santiago; Si Qin; Minoo Naebe; Luke C. Henderson; Dylan Y. Hegh; Benjamin J. Allardyce; Joselito M. Razal

doi:10.1002/admi.202201634

Advanced Materials Interfaces (Mar 2023)

Robust Biocompatible Fibers from Silk Fibroin Coated MXene Sheets

Ken Aldren S. Usman,
Ya Yao,
Christine Jurene O. Bacal,
Jizhen Zhang,
Karyn L. Jarvis,
Peter A. Lynch,
Pablo Mota‐Santiago,
Si Qin,
Minoo Naebe,
Luke C. Henderson,
Dylan Y. Hegh,
Benjamin J. Allardyce,
Joselito M. Razal

Affiliations

Ken Aldren S. Usman: Institute for Frontier Materials Deakin University Geelong Victoria 3216 Australia
Ya Yao: Department of Biomedical Engineering Tufts University 4 Colby St. Medford MA 02155 USA
Christine Jurene O. Bacal: Institute for Frontier Materials Deakin University Geelong Victoria 3216 Australia
Jizhen Zhang: Institute for Frontier Materials Deakin University Geelong Victoria 3216 Australia
Karyn L. Jarvis: Australian National Fabrication Facility (ANFF) Biointerface Engineering Hub Swinburne University of Technology Hawthorn Victoria 3122 Australia
Peter A. Lynch: Institute for Frontier Materials Deakin University Geelong Victoria 3216 Australia
Pablo Mota‐Santiago: Australian Synchrotron Clayton Victoria 3168 Australia
Si Qin: Institute for Frontier Materials Deakin University Geelong Victoria 3216 Australia
Minoo Naebe: Institute for Frontier Materials Deakin University Geelong Victoria 3216 Australia
Luke C. Henderson: Institute for Frontier Materials Deakin University Geelong Victoria 3216 Australia
Dylan Y. Hegh: Institute for Frontier Materials Deakin University Geelong Victoria 3216 Australia
Benjamin J. Allardyce: Institute for Frontier Materials Deakin University Geelong Victoria 3216 Australia
Joselito M. Razal: Institute for Frontier Materials Deakin University Geelong Victoria 3216 Australia

DOI: https://doi.org/10.1002/admi.202201634
Journal volume & issue: Vol. 10, no. 9
pp. n/a – n/a

Abstract

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Abstract Conductive fibers are needed for the development of flexible electronic and biomedical devices. MXene fibers show great promise for use in such applications because of their high conductivity. Current literature on MXene fiber development highlights the need for improving their mechanical properties and investigation of biocompatibility. Here the use of silk fibroin biopolymer as a MXene formulation additive for the production of MXene fibers is studied. It is found that the favorable silk fibroin–MXene interactions resulted in improved durability, withstanding up to 1 h of high frequency sonication in buffered solutions. Furthermore, fibers with ≈5 wt% silk fibroin displays interesting properties including high conductivity (≈3700 S cm−1), high volumetric capacitance (≈910 F cm−3), and non‐cytotoxicity toward THP‐1 monocytic cells. The results presented here provide an important insight into potential use of MXene fibers in flexible electronics and biomedical applications.

Published in Advanced Materials Interfaces

ISSN: 2196-7350 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Science: Physics; Technology
Website: https://onlinelibrary.wiley.com/journal/21967350

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