Add to ORKGThe near-surface motility of bacteria is important in the initial formation of biofilms and in many biomedical applications. The swimming motion of Escherichia coli near a solid surface is investigated both numerically and experimentally. A boundary element method is used to predict the hydrodynamic entrapment of E. coli bacteria, their trajectories, and the minimum separation of the cell from the surface. The numerical results show the existence of a stable swimming distance from the boundary that depends only on the shape of the cell body and the flagellum. The experimental validation of the numerical approach allows one to use the numerical method as a predictive tool to estimate with reasonable accuracy the near-wall motility of swimmin...
Microbial organisms are easily observed in geometrically confined environments. The swimming charact...
The natural habitat of many bacterial swimmers is dominated by interfaces and narrow interstitial sp...
The presence of a nearby boundary is likely to be important in the life cycle and evolution of motil...
Microswimmers such as E. coli bacteria accumulate and exhibit an intriguing dynamics near walls, gov...
We describe a boundary-element method used to model the hydrodynamics of a bacterium propelled by a ...
AbstractNear a solid boundary, Escherichia coli swims in clockwise circular motion. We provide a hyd...
We present a simple model for bacteria like Escherichia coil swimming near solid surfaces. It consis...
A general Boundary Element Method is presented and benchmarked with existing Slender Body Theory res...
Department of Biomedical EngineeringIn nature environment, bacterial swimming motility is important ...
AbstractThe singly flagellated bacterium, Vibrio alginolyticus, moves forward and backward by altern...
Motility of flagellated bacteria has been a topic of increasing scientific interest over the past de...
The inuence of nearby solid surfaces on the motility of bacteria is of fundamental importance as the...
The hydrodynamics of a flagellated micro-organism is investigated when swimming close to a planar fr...
The colonization of surfaces by bacteria is a widespread phenomenon with consequences on environment...
AbstractThis article evaluates the hydrodynamic interactions between two swimming bacteria precisely...
Microbial organisms are easily observed in geometrically confined environments. The swimming charact...
The natural habitat of many bacterial swimmers is dominated by interfaces and narrow interstitial sp...
The presence of a nearby boundary is likely to be important in the life cycle and evolution of motil...
Microswimmers such as E. coli bacteria accumulate and exhibit an intriguing dynamics near walls, gov...
We describe a boundary-element method used to model the hydrodynamics of a bacterium propelled by a ...
AbstractNear a solid boundary, Escherichia coli swims in clockwise circular motion. We provide a hyd...
We present a simple model for bacteria like Escherichia coil swimming near solid surfaces. It consis...
A general Boundary Element Method is presented and benchmarked with existing Slender Body Theory res...
Department of Biomedical EngineeringIn nature environment, bacterial swimming motility is important ...
AbstractThe singly flagellated bacterium, Vibrio alginolyticus, moves forward and backward by altern...
Motility of flagellated bacteria has been a topic of increasing scientific interest over the past de...
The inuence of nearby solid surfaces on the motility of bacteria is of fundamental importance as the...
The hydrodynamics of a flagellated micro-organism is investigated when swimming close to a planar fr...
The colonization of surfaces by bacteria is a widespread phenomenon with consequences on environment...
AbstractThis article evaluates the hydrodynamic interactions between two swimming bacteria precisely...
Microbial organisms are easily observed in geometrically confined environments. The swimming charact...
The natural habitat of many bacterial swimmers is dominated by interfaces and narrow interstitial sp...
The presence of a nearby boundary is likely to be important in the life cycle and evolution of motil...