Add to ORKGThe search for alternatives to the standard methods of preventing bacterial adhesion and biofilm formation on biotic and abiotic surfaces alike has led to the use of biomimetics to reinvent through nanofabrication methods, surfaces, whereby the nanostructured topography is directly responsible for bacterial inactivation through physico-mechanical means. Plant leaves, insect wings, and animal skin have been used to inspire the fabrication of synthetic high-aspect-ratio nanopillared surfaces, which can resist bacterial colonisation. The adaptation of bacteria to survive in the presence of antibiotics and their ability to form biofilms on conventional antibacterial surfaces has led to an increase in persistent infections caused by resistant st...
Recurrent bacterial infection is one of the main reasons of implant failure, hugely impacting the pa...
Over the past ten years, a next-generation approach to combat bacterial contamination has emerged: o...
In this thesis artificial nanostructured surfaces inspired by the moth eye were developed on both in...
Bacterial antibiotic resistance is becoming more widespread due to excessive use of antibiotics in h...
Bacteria are widely distributed in the natural environment and the surfaces of objects, bringing abo...
Microbial contamination and biofilm formation of medical devices is a major issue associated with me...
Nanostructured surfaces are called "promising" to control bacterial adhesion and biofilm formation. ...
The project was pivoted around the design, characterization, and fabrication of nanostructured natur...
This thesis investigated the deformation and resulting antibacterial activity of bacteria on nanopat...
Orthopaedic and dental implants have become a staple of the medical industry and with an ageing popu...
International audienceBacteria that adhere to the surfaces of implanted medical devices can cause ca...
Nanostructured mechano-bactericidal surfaces represent a promising technology to prevent the inciden...
International audiencePrevention of bacterial adhesion and biofilm formation on the surfaces of mate...
Surface-associated communities of bacteria, called biofilms, pervade natural and anthropogenic envir...
Pathogenic microbes, such as bacteria and fungi, often contaminate medical systems resulting in 1.7 ...
Recurrent bacterial infection is one of the main reasons of implant failure, hugely impacting the pa...
Over the past ten years, a next-generation approach to combat bacterial contamination has emerged: o...
In this thesis artificial nanostructured surfaces inspired by the moth eye were developed on both in...
Bacterial antibiotic resistance is becoming more widespread due to excessive use of antibiotics in h...
Bacteria are widely distributed in the natural environment and the surfaces of objects, bringing abo...
Microbial contamination and biofilm formation of medical devices is a major issue associated with me...
Nanostructured surfaces are called "promising" to control bacterial adhesion and biofilm formation. ...
The project was pivoted around the design, characterization, and fabrication of nanostructured natur...
This thesis investigated the deformation and resulting antibacterial activity of bacteria on nanopat...
Orthopaedic and dental implants have become a staple of the medical industry and with an ageing popu...
International audienceBacteria that adhere to the surfaces of implanted medical devices can cause ca...
Nanostructured mechano-bactericidal surfaces represent a promising technology to prevent the inciden...
International audiencePrevention of bacterial adhesion and biofilm formation on the surfaces of mate...
Surface-associated communities of bacteria, called biofilms, pervade natural and anthropogenic envir...
Pathogenic microbes, such as bacteria and fungi, often contaminate medical systems resulting in 1.7 ...
Recurrent bacterial infection is one of the main reasons of implant failure, hugely impacting the pa...
Over the past ten years, a next-generation approach to combat bacterial contamination has emerged: o...
In this thesis artificial nanostructured surfaces inspired by the moth eye were developed on both in...