Bacterial biofilm has become one of the most frequent health problems as it contributes to persistent chronic infections. Therefore, it is vital to find alternatives to currently used bactericidal agents to prevent bacterial contamination on surfaces effectively and prevent the biofilms formation. Several metallic materials are well known for their antimicrobial activity; this includes copper, copper alloys, silver, gold, titanium, and zinc. On the other hand, some metals, such as aluminum, do not have noteworthy antimicrobial properties. In this study, we demonstrate that the antibacterial activity of household aluminum foil can be enhanced by nanostructuring the foil's surface by a simple hot water treatment (HWT) process. Cultures ofEscherichia coliandStaphylococcus aureuswere grown on nutrient agar while exposed to the samples of treated and untreated Al foils and left for 24 h. Our results indicate that treated Al foil can more effectively inhibit the bacteria growth compared to the regular untreated Al foil. This enhancement in antibacterial property might be due to a combination of chemical and morphological changes that the cell undergoes once it encounters nanofeatures of HWT-Al foil surface.
Keywords: antibacterial surfaces; antimicrobial resistance; hot water treatment; nanostructured surface; surface roughness.
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