The diffusivity of spherical colloidal particles close to a planar hard wall is studied by dynamic light scattering with evanescent illumination. A novel setup allows us to independently vary the scattering vector components parallel Q(parallel to) and normal Q(perpendicular to) to the wall. An expression for the initial decay rate Gamma of the time autocorrelation functions is derived as a function of both Q(parallel to) and Q(perpendicular to), as well as the penetration depth of the evanescent wave, where hydrodynamic interactions of particles with the wall are included. This makes it possible to study the viscous wall drag effect quantitatively for particles as small as 85 nm in radius
Related publication: J. A. Rivera-Morán, Y. Liu, S. Monter, C. Hsu, P. Ruckdeschel, M. Retsch, M. K....
The motion of an optically trapped sphere constrained by the vicinity of a wall is investigated at t...
We employ an analogy to traditional dynamic light scattering to describe the inhomogeneous and aniso...
The dynamics of colloidal spheres near to a wall is studied with an evanescent wave scattering setup...
International audienceThe Brownian dynamics of a colloidal suspension is measured in the immediate v...
In this article we extend recent experimental developments [Rogers et al., Phys. Rev. Lett., 2012, 1...
We investigate the Brownian motion of hard-sphere colloids near a solid wall by Evanescent Wave Dyna...
The Brownian dynamics of a colloidal suspension is measured in the immediate vicinity of a rigid sur...
We investigated the near-wall Brownian dynamics of different types of colloidal particles with a typ...
We investigated the near-wall Brownian dynamics of different types of colloidal particles with a typ...
We investigated the near-wall Brownian dynamics of different types of colloidal particles with a typ...
Over the last decade we developed instrumental equipment, based onevanescent light scattering, to in...
Over the last decade we developed instrumental equipment, based on evanescent wave light scattering,...
There is currently no experimental technique available to probe spatially resolved rotational diffus...
Whensuspended colloidal particles move in the ultimate vicinity of a flat solid interface, their mob...
Related publication: J. A. Rivera-Morán, Y. Liu, S. Monter, C. Hsu, P. Ruckdeschel, M. Retsch, M. K....
The motion of an optically trapped sphere constrained by the vicinity of a wall is investigated at t...
We employ an analogy to traditional dynamic light scattering to describe the inhomogeneous and aniso...
The dynamics of colloidal spheres near to a wall is studied with an evanescent wave scattering setup...
International audienceThe Brownian dynamics of a colloidal suspension is measured in the immediate v...
In this article we extend recent experimental developments [Rogers et al., Phys. Rev. Lett., 2012, 1...
We investigate the Brownian motion of hard-sphere colloids near a solid wall by Evanescent Wave Dyna...
The Brownian dynamics of a colloidal suspension is measured in the immediate vicinity of a rigid sur...
We investigated the near-wall Brownian dynamics of different types of colloidal particles with a typ...
We investigated the near-wall Brownian dynamics of different types of colloidal particles with a typ...
We investigated the near-wall Brownian dynamics of different types of colloidal particles with a typ...
Over the last decade we developed instrumental equipment, based onevanescent light scattering, to in...
Over the last decade we developed instrumental equipment, based on evanescent wave light scattering,...
There is currently no experimental technique available to probe spatially resolved rotational diffus...
Whensuspended colloidal particles move in the ultimate vicinity of a flat solid interface, their mob...
Related publication: J. A. Rivera-Morán, Y. Liu, S. Monter, C. Hsu, P. Ruckdeschel, M. Retsch, M. K....
The motion of an optically trapped sphere constrained by the vicinity of a wall is investigated at t...
We employ an analogy to traditional dynamic light scattering to describe the inhomogeneous and aniso...