Add to ORKGABSTRACT The rate and distance-dependence of association between surface-attached molecules may be determined by monitoring the motion of receptor-bearing spheres along ligand-coated surfaces in a flow chamber (Pierres et al., Proc. Natl. Acad. Sci. U.S.A. 95:9256–9261, 1998). Particle arrests reveal bond formation, and the particle-to-surface distance may be estimated from the ratio between the velocity and the wall shear rate. However, several problems are raised. First, data interpretation requires extensive computer simulations. Second, the relevance of standard results from fluid mechanics to micrometer-size particles separated from surfaces by nanometer distances is not fully demonstrated. Third, the wall shear rate must be known with...
Boundary walls have a strong influence on the drag force on optically trapped object near surface. F...
We investigated the dependence of the apparent slip length (β) on the particle concentration for sus...
The diffusion of a particle is slowed as it moves close to a surface. We identify the conditions und...
AbstractThe rate and distance-dependence of association between surface-attached molecules may be de...
The efficiency of cell adhesion is highly dependent on the rate of association between adhesion mole...
Important processes in nature and technology involve the adhesive capture of flowing particles or ce...
The dynamics of adhesion of a spherical microparticle to a ligand-coated wall, in shear flow, is stu...
This contribution investigates the characteristic reduction of the particle velocity with respect to...
The low-Reynolds-number motion of a single spherical particle between parallel walls is determined f...
The behavior of the suspended particles in a fluid is an important subject in fluid flow studies. E...
International audienceA model is proposed for the three-dimensional motion of a small spherical part...
To delineate the influence of hemodynamic force on cell adhesion processes, model in vitro fluidic a...
textThe nano/micro particles have been widely used as a carrier of therapeutic and contrast imaging ...
The non-specific adhesion of spherical micro- and nano-particles to a cell substrate is investigated...
Transport of small particles, of micrometer and sub-micrometer size, by fluid occurs in many technol...
Boundary walls have a strong influence on the drag force on optically trapped object near surface. F...
We investigated the dependence of the apparent slip length (β) on the particle concentration for sus...
The diffusion of a particle is slowed as it moves close to a surface. We identify the conditions und...
AbstractThe rate and distance-dependence of association between surface-attached molecules may be de...
The efficiency of cell adhesion is highly dependent on the rate of association between adhesion mole...
Important processes in nature and technology involve the adhesive capture of flowing particles or ce...
The dynamics of adhesion of a spherical microparticle to a ligand-coated wall, in shear flow, is stu...
This contribution investigates the characteristic reduction of the particle velocity with respect to...
The low-Reynolds-number motion of a single spherical particle between parallel walls is determined f...
The behavior of the suspended particles in a fluid is an important subject in fluid flow studies. E...
International audienceA model is proposed for the three-dimensional motion of a small spherical part...
To delineate the influence of hemodynamic force on cell adhesion processes, model in vitro fluidic a...
textThe nano/micro particles have been widely used as a carrier of therapeutic and contrast imaging ...
The non-specific adhesion of spherical micro- and nano-particles to a cell substrate is investigated...
Transport of small particles, of micrometer and sub-micrometer size, by fluid occurs in many technol...
Boundary walls have a strong influence on the drag force on optically trapped object near surface. F...
We investigated the dependence of the apparent slip length (β) on the particle concentration for sus...
The diffusion of a particle is slowed as it moves close to a surface. We identify the conditions und...