Issue 22, 2022

A novel antibacterial gold nanoparticle layer with a self-cleaning ability through the production of oxygen bubbles

Abstract

Bacterial contamination of medical devices not only constitutes a serious threat to the health of patients, but also promotes the evolution of bacterial drug-resistance. Here, a new strategy to fabricate a highly efficient self-cleaning antibacterial coating is reported. Briefly, a nano-topological structure is formed on the substrate surface by the deposition of a gold nanoparticle layer (GNPL), and then antimicrobial peptide mimetics (AMPMs) with optimized structure and catalase (CAT) are modified on the surface. The optimized AMPMs not only inhibit the growth of over 99% of Escherichia coli and Staphylococcus aureus, but also show excellent inhibition efficiency against MRSA. Meanwhile, the entire surface maintains good biocompatibility. In particular, it is found that CAT can decompose the endogenous hydrogen peroxide released from the bacteria, and generate oxygen bubbles to carry off the bacteria adhered to the surface. This special self-cleaning mechanism greatly reduces the adhesion of bacteria and maintains the high antibacterial efficiency of AMPMs for a long time. Moreover, the surface modification strategy has been proved suitable for several substrates, including soft polymers, metals, and inorganic nonmetallic materials, and has great potential to develop more effectual and safe antibacterial surfaces for medical devices in the future.

Graphical abstract: A novel antibacterial gold nanoparticle layer with a self-cleaning ability through the production of oxygen bubbles

Supplementary files

Article information

Article type
Paper
Submitted
05 Feb 2022
Accepted
20 Apr 2022
First published
25 Apr 2022

J. Mater. Chem. B, 2022,10, 4203-4215

A novel antibacterial gold nanoparticle layer with a self-cleaning ability through the production of oxygen bubbles

J. Liang, J. Wang, X. Shen, B. Lu, G. Li, H. Wang, H. Wang and L. Yuan, J. Mater. Chem. B, 2022, 10, 4203 DOI: 10.1039/D2TB00258B

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