Superhydrophobic Copper‐Composite Surfaces Exert Antibacterial Effects against Gram‐Negative and ‐Positive Bacteria

Mirmohammadi, Seyed Mehran; Savijoki, Kirsi; Hoshian, Sasha; Varmanen, Pekka; Yli‐Kauhaluoma, Jari; Jokinen, Ville; Franssila, Sami

doi:10.1002/admi.202300121

Adv Materials Inter

2023

DOI: 10.1002/admi.202300121

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Superhydrophobic Copper‐Composite Surfaces Exert Antibacterial Effects against Gram‐Negative and ‐Positive Bacteria

Seyed Mehran Mirmohammadi

Kirsi Savijoki

Sasha Hoshian

et al.

Abstract: Copper shows a high promise in developing biomedical materials with antibacterial effect. The antibacterial effect can be enhanced by nanostructured surfaces with superhydrophobic properties, which reduce the solid contact area available for bacterial adhesion and adherent growth. Here, three structured surfaces are fabricated to test the combined effect of copper and superhydrophobicity for antibacterial effects. One of the samples is superhydrophobic but does not contain copper, one contains copper but is no… Show more

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Dual Antibacterial Properties of Copper‐Coated Nanotextured Stainless Steel

Tripathi,

Park,

Pho

et al. 2024

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Bacterial adhesion to stainless steel, an alloy commonly used in shared settings, numerous medical devices, and food and beverage sectors, can give rise to serious infections, ultimately leading to morbidity, mortality, and significant healthcare expenses. In this study, Cu‐coated nanotextured stainless steel (nSS) fabrication have been demonstrated using electrochemical technique and its potential as an antibiotic‐free biocidal surface against Gram‐positive and negative bacteria. As nanotexture and Cu combine for dual methods of killing, this material should not contribute to drug‐resistant bacteria as antibiotic use does. This approach involves applying a Cu coating on nanotextured stainless steel, resulting in an antibacterial activity within 30 min. Comprehensive characterization of the surface revealing that the Cu coating consists of metallic Cu and oxidized states (Cu2+ and Cu+), has been performed by this study. Cu‐coated nSS induces a remarkable reduction of 97% in Gram‐negative Escherichia coli and 99% Gram‐positive Staphylococcus epidermidis bacteria. This material has potential to be used to create effective, scalable, and sustainable solutions to prevent bacterial infections caused by surface contamination without contributing to antibiotic resistance.

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Dual Antibacterial Properties of Copper‐Coated Nanotextured Stainless Steel

Tripathi,

Park,

Pho

et al. 2024

Small

View full text Add to dashboard Cite

show abstract

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Superhydrophobic Copper‐Composite Surfaces Exert Antibacterial Effects against Gram‐Negative and ‐Positive Bacteria

Cited by 1 publication

References 79 publications

Dual Antibacterial Properties of Copper‐Coated Nanotextured Stainless Steel

Dual Antibacterial Properties of Copper‐Coated Nanotextured Stainless Steel

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