Add to ORKGWe study the static and dynamic behaviour of colloidal rods in an optical potential energy landscape. We explore the stable states of a colloidal rod in a single optical trap close to a flat wall. Here, two metastable states are observed, horizontal and vertical, both of which experience a parabolic potential energy landscape. Next we place a colloidal rod into a one-dimensional sinusoidal optical potential energy landscape and introduce a constant driving velocity. When driven below the critical velocity, the particle is confined to a single potential energy minimum of the optical landscape and the equilibrium position of a particle is investigated. The equilibrium position of a rod is found to vary substantially from that of a sphere, due...
<p>The ability to dictate colloid motion is an important challenge in fields ranging from materials ...
A two-layer colloidal system is developed for the study of colloidal diffusion over a two-dimensiona...
Using optical microscopy and multiparticle tracking techniques, we investigate the correlated diffus...
The dynamic behaviour of colloidal particles driven across one-dimensional optical potential energy ...
The dynamics of colloidal particles driven over optical potential energy landscapes is studied. Exp...
We study the motion of colloidal particles driven by a constant force over a periodic optical potent...
A colloidal particle is driven across a temporally oscillating onedimensional optical potential ener...
Optical potential energy landscapes created using acousto-optical deflectors are characterized via s...
In this article we examine the dynamics of a colloidal particle driven by a modulated force over a s...
We study colloidal rods in confinement and under flow on the single particle level using optical micro...
Colloidal rods form the most basic system to study the origin of self-assembled structures. Dependin...
The free diffusion of rod-like particles is strongly frustrated by the presence of other rods. This ...
To date investigations of the dynamics of driven colloidal systems have focused on hydrodynamic inte...
We experimentally investigate the structural behavior of an interacting colloidal monolayer being dr...
We studied the transition behaviors of colloidal arrangements confined at a centro-symmetrically cur...
<p>The ability to dictate colloid motion is an important challenge in fields ranging from materials ...
A two-layer colloidal system is developed for the study of colloidal diffusion over a two-dimensiona...
Using optical microscopy and multiparticle tracking techniques, we investigate the correlated diffus...
The dynamic behaviour of colloidal particles driven across one-dimensional optical potential energy ...
The dynamics of colloidal particles driven over optical potential energy landscapes is studied. Exp...
We study the motion of colloidal particles driven by a constant force over a periodic optical potent...
A colloidal particle is driven across a temporally oscillating onedimensional optical potential ener...
Optical potential energy landscapes created using acousto-optical deflectors are characterized via s...
In this article we examine the dynamics of a colloidal particle driven by a modulated force over a s...
We study colloidal rods in confinement and under flow on the single particle level using optical micro...
Colloidal rods form the most basic system to study the origin of self-assembled structures. Dependin...
The free diffusion of rod-like particles is strongly frustrated by the presence of other rods. This ...
To date investigations of the dynamics of driven colloidal systems have focused on hydrodynamic inte...
We experimentally investigate the structural behavior of an interacting colloidal monolayer being dr...
We studied the transition behaviors of colloidal arrangements confined at a centro-symmetrically cur...
<p>The ability to dictate colloid motion is an important challenge in fields ranging from materials ...
A two-layer colloidal system is developed for the study of colloidal diffusion over a two-dimensiona...
Using optical microscopy and multiparticle tracking techniques, we investigate the correlated diffus...