Issue 11, 2021

A graphene hybrid supramolecular hydrogel with high stretchability, self-healable and photothermally responsive properties for wound healing

Abstract

Wound healing is a ubiquitous healthcare problem in clinical wound management. In this paper, the fabrication of a graphene hybrid supramolecular hydrogel (GS hydrogel) for wound dressing applications is demonstrated. The hydrogel is composed of two components, including N-acryloyl glycinamide (NAGA) as the scaffold and graphene as the photothermally responsive active site for photothermal therapy. Based on the multiple hydrogen bonds between the dual amide motifs in the side chain of N-acryloyl glycinamide, the hydrogel exhibits high tensile strength (≈1.7 MPa), good stretchability (≈400%) and self-recoverability. In addition, the GS hydrogel shows excellent antibacterial activity towards methicillin-resistant Staphylococcus aureus (MRSA), benefiting from the addition of graphene that possesses great photothermal transition activity (≈85%). Significantly, in vivo animal experiments also demonstrated that the GS hydrogel effectively accelerates the wound healing processes by eradicating microbes, promoting collagen deposition and angiogenesis. In summary, this GS hydrogel demonstrates excellent mechanical performance, photothermal antimicrobial activity, and promotes skin tissue regeneration, and so has great application potential as a promising wound dressing material in clinical use.

Graphical abstract: A graphene hybrid supramolecular hydrogel with high stretchability, self-healable and photothermally responsive properties for wound healing

Associated articles

Supplementary files

Article information

Article type
Paper
Submitted
25 Oct 2020
Accepted
22 Jan 2021
First published
04 Feb 2021
This article is Open Access
Creative Commons BY license

RSC Adv., 2021,11, 6367-6373

A graphene hybrid supramolecular hydrogel with high stretchability, self-healable and photothermally responsive properties for wound healing

H. Zhang, S. Zheng, C. Chen and D. Zhang, RSC Adv., 2021, 11, 6367 DOI: 10.1039/D0RA09106E

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