Single-particle tracking was used to measure the diffusion in aqueous suspension of dilute colloidal clusters, 2-9 mu m in size, fabricated by joining 1.57 mu m spheres into planar arrangements of various particle numbers and symmetries (doublet, trimer, square, pentamer, hexamer, and so forth). They were allowed to sediment close to a glass surface and their Brownian motion parallel to the surface, effectively in a two dimensional (2D) geometry, was imaged in a microscope in the presence of 3 mM monovalent salt to essentially screen electrostatic interactions. Geometric asymmetry produced systematically increasing discrepancy between the equivalent hydrodynamic radius of translation and rotation-tabulated in this paper. Our observations in...
We measure all nonzero elements of the three-dimensional diffusion tensor D for clusters of colloida...
Understanding the hydrodynamics of colloids with complex shapes is of equal importance to widespread...
We compare, using single-particle optical imaging, trajectories of rotation and translation for micr...
We present a new, high-speed technique to track the three-dimensional translation and rotation of no...
We present a new, high-speed technique to track the three-dimensional translation and rotation of no...
We report an experimental method to measure the translational and rotational dynamics of colloidal s...
The rotational Brownian motion of colloidal spheres in dense suspensions reflects local hydrodynamic...
We investigate, from single-particle tracking of jumps, the cluster configurations that allow hoppin...
This project utilizes the optical tweezer system combined with digital video microscopy to study the...
The hydrodynamic interactions (HIs) of two colloidal spheres characterized by the translation-transl...
We demonstrate that tracer/host size asymmetry and electrostatic interactions strongly affect rotati...
By combining optical tweezers with polarization microscopy, the hydrodynamic coupling between positi...
According to the Stokes–Einstein–Debye (SED) relation, the rotational diffusion coefficient of a col...
According to the Stokes-Einstein-Debye (SED) relation, the rotational diffusion coefficient of a col...
Real time visualization and tracking of colloidal particles with 3D resolution is essential for prob...
We measure all nonzero elements of the three-dimensional diffusion tensor D for clusters of colloida...
Understanding the hydrodynamics of colloids with complex shapes is of equal importance to widespread...
We compare, using single-particle optical imaging, trajectories of rotation and translation for micr...
We present a new, high-speed technique to track the three-dimensional translation and rotation of no...
We present a new, high-speed technique to track the three-dimensional translation and rotation of no...
We report an experimental method to measure the translational and rotational dynamics of colloidal s...
The rotational Brownian motion of colloidal spheres in dense suspensions reflects local hydrodynamic...
We investigate, from single-particle tracking of jumps, the cluster configurations that allow hoppin...
This project utilizes the optical tweezer system combined with digital video microscopy to study the...
The hydrodynamic interactions (HIs) of two colloidal spheres characterized by the translation-transl...
We demonstrate that tracer/host size asymmetry and electrostatic interactions strongly affect rotati...
By combining optical tweezers with polarization microscopy, the hydrodynamic coupling between positi...
According to the Stokes–Einstein–Debye (SED) relation, the rotational diffusion coefficient of a col...
According to the Stokes-Einstein-Debye (SED) relation, the rotational diffusion coefficient of a col...
Real time visualization and tracking of colloidal particles with 3D resolution is essential for prob...
We measure all nonzero elements of the three-dimensional diffusion tensor D for clusters of colloida...
Understanding the hydrodynamics of colloids with complex shapes is of equal importance to widespread...
We compare, using single-particle optical imaging, trajectories of rotation and translation for micr...