Add to ORKGNanostructured mechano-bactericidal surfaces represent a promising technology to prevent the incidence of microbial contamination on a variety of surfaces and to avoid bacterial infection, particularly with antibiotic resistant strains. In this work, a regular array of silicon nanopillars of 380 nm height and 35 nm diameter was used to study the release of bacterial cell debris off the surface, following inactivation of the cell due to nanostructure-induced rupture. It was confirmed that substantial bactericidal activity was achieved against Gram-negative Pseudomonas aeruginosa (85% non-viable cells) and only modest antibacterial activity towards Staphylococcus aureus (8% non-viable cells), as estimated by measuring the proportions of viabl...
Black silicon is a synthetic nanomaterial that contains high aspect ratio nanoprotrusions on its sur...
Microbial contamination and biofilm formation of medical devices is a major issue associated with me...
The rise of multidrug resistant bacteria is the biggest threat to human health globally as described...
The nanostructuring of materials to create bactericidal and antibiofouling surfaces presents an exci...
Bacterial colonization on solid surfaces creates enormous problems across various industries causing...
The search for alternatives to the standard methods of preventing bacterial adhesion and biofilm for...
International audienceBacteria that adhere to the surfaces of implanted medical devices can cause ca...
Over the past ten years, a next-generation approach to combat bacterial contamination has emerged: o...
Bacterial antibiotic resistance is becoming more widespread due to excessive use of antibiotics in h...
A novel method was developed to assay the antimicrobial capacity of nanostructured surfaces for medi...
Recent progress in nano-/micro-fabrication techniques has paved the way for the emergence of synthet...
Nanopillared surfaces have emerged as a promising strategy to combat bacterial infections on medical...
Development of synthetic bactericidal surfaces is a drug-free route to the prevention of implant-ass...
Bioinspired nanostructured materials that exhibit antimicrobial properties are being synthesized and...
Nano-structured black silicon (bSi) was used as a substratum for the construction of a microfluidic ...
Black silicon is a synthetic nanomaterial that contains high aspect ratio nanoprotrusions on its sur...
Microbial contamination and biofilm formation of medical devices is a major issue associated with me...
The rise of multidrug resistant bacteria is the biggest threat to human health globally as described...
The nanostructuring of materials to create bactericidal and antibiofouling surfaces presents an exci...
Bacterial colonization on solid surfaces creates enormous problems across various industries causing...
The search for alternatives to the standard methods of preventing bacterial adhesion and biofilm for...
International audienceBacteria that adhere to the surfaces of implanted medical devices can cause ca...
Over the past ten years, a next-generation approach to combat bacterial contamination has emerged: o...
Bacterial antibiotic resistance is becoming more widespread due to excessive use of antibiotics in h...
A novel method was developed to assay the antimicrobial capacity of nanostructured surfaces for medi...
Recent progress in nano-/micro-fabrication techniques has paved the way for the emergence of synthet...
Nanopillared surfaces have emerged as a promising strategy to combat bacterial infections on medical...
Development of synthetic bactericidal surfaces is a drug-free route to the prevention of implant-ass...
Bioinspired nanostructured materials that exhibit antimicrobial properties are being synthesized and...
Nano-structured black silicon (bSi) was used as a substratum for the construction of a microfluidic ...
Black silicon is a synthetic nanomaterial that contains high aspect ratio nanoprotrusions on its sur...
Microbial contamination and biofilm formation of medical devices is a major issue associated with me...
The rise of multidrug resistant bacteria is the biggest threat to human health globally as described...