The thermally triggered release of up to 96% of attached uropathogenic E. coli is achieved on two polymers with opposite changes in surface wettability upon reduction in temperature. This demonstrates that the bacterial attachment to a surface cannot be explained in terms of water contact angle alone; rather, the surface composition of the polymer plays the key role.Wellcome Trust (London, England) (Grant 085245)National Institutes of Health (U.S.) (Grant R01 DE016516
In this study, we use Escherichia coli as a model to investigate the antimicrobial mechanism of a fi...
Bacterial adhesion on surfaces commonly used in medicine and food industry could lead to infections ...
The roles of bacterial surface polymers in reversible (phase I) and irreversible (phase II) attachme...
YesThe thermally triggered release of up to 96% of attached uropathogenic E. coli is achieved on two...
The thermally triggered release of up to 96% of attached uropathogenic E. coli is achieved on two po...
The adhesion of three Escherichia coli strains on to six poly(methacrylates) differing in hydrophobi...
Elena P Ivanova1, Natasa Mitik-Dineva1, Radu C Mocanasu1, Sarah Murphy1, James Wang2, Grant van Ries...
Environmentally responsive (or “smart”) polymers represent a new approach for controlling biofouling...
This work focuses on the development of a label-free biomimetic sensor for the specific and selectiv...
Several studies have tried to correlate bacterial adhesion with the physicochemical properties of th...
© 2016 American Chemical Society. This work focuses on the development of a label-free biomimetic se...
Mitigation of bacterial adhesion and subsequent biofilm formation is quickly becoming a strategy for...
This study examined bacterial adhesion to a new multi-component cross-linked poly(ethylene glycol)-b...
Bacterial infections related to medical devices can cause severe problems, whose solution requires i...
In this paper, we present an investigation into the effects of surface topography (roughness) and hy...
In this study, we use Escherichia coli as a model to investigate the antimicrobial mechanism of a fi...
Bacterial adhesion on surfaces commonly used in medicine and food industry could lead to infections ...
The roles of bacterial surface polymers in reversible (phase I) and irreversible (phase II) attachme...
YesThe thermally triggered release of up to 96% of attached uropathogenic E. coli is achieved on two...
The thermally triggered release of up to 96% of attached uropathogenic E. coli is achieved on two po...
The adhesion of three Escherichia coli strains on to six poly(methacrylates) differing in hydrophobi...
Elena P Ivanova1, Natasa Mitik-Dineva1, Radu C Mocanasu1, Sarah Murphy1, James Wang2, Grant van Ries...
Environmentally responsive (or “smart”) polymers represent a new approach for controlling biofouling...
This work focuses on the development of a label-free biomimetic sensor for the specific and selectiv...
Several studies have tried to correlate bacterial adhesion with the physicochemical properties of th...
© 2016 American Chemical Society. This work focuses on the development of a label-free biomimetic se...
Mitigation of bacterial adhesion and subsequent biofilm formation is quickly becoming a strategy for...
This study examined bacterial adhesion to a new multi-component cross-linked poly(ethylene glycol)-b...
Bacterial infections related to medical devices can cause severe problems, whose solution requires i...
In this paper, we present an investigation into the effects of surface topography (roughness) and hy...
In this study, we use Escherichia coli as a model to investigate the antimicrobial mechanism of a fi...
Bacterial adhesion on surfaces commonly used in medicine and food industry could lead to infections ...
The roles of bacterial surface polymers in reversible (phase I) and irreversible (phase II) attachme...