[[abstract]]©2002 AIP - Three numerical schemes and one approximate model are developed to compute the overall rate constants for diffusion and incorporation of small entities in clusters of spheres. These include the Brownian dynamic simulation, multipole expansion, boundary collocation, and a model linking diffusion-limited (DL) and nondiffusion-limited (NDL) data. The Brownian dynamic simulation is speeded up with a first-passage technique and is capable of taking the finite surface incorporation rate into account. The multipole expansion truncated at the dipole moment gives an excellent approximation while the second order boundary collocation is satisfactorily accurate. The DL to NDL model offers a quick and reasonably accurate estimat...
Molecular-dynamics simulations of stability and diffusion of two small clusters (formula presented) ...
We quantify the long-time self diffusion of colloidal particles confined to the surface of a sphere ...
The structure and dynamics of confined suspensions of particles of arbitrary shape are of interest i...
[[abstract]]©2004 AIP - The normalized overall rate constant kp/kf for diffuse-and-incorporate proce...
[[abstract]]©2002 AIP - A first-passage scheme is devised to determine the overall rate constant of ...
In this work, we illustrate two approaches to the simulation of surface diffusion over a sphere coup...
Red spheres represent top 85% and bottom 15% of diffusivity. A) diffusivity clusters over entire ran...
On the basis of Brownian dynamics computer simulation studies, we investigate the structure and dyna...
Modeling diffusion of nonspherical particles presents an unsolved and considerable challenge, despit...
[[abstract]]©2006 AIP - The normalized overall rate constant, kp/kf for diffusion-limited processes ...
<p>Subplots a-c: CDFs of the angular component of particles diffusing on the surface of shrinking sp...
We address the problem of diffusional interactions in a finite sized cluster of spherical particles ...
Starting from a Zimm model, we study self-diffusion in a solution of crosslinked monomers. We focus ...
Translational tracer diffusion of spherical macromolecules in crowded suspensions of rodlike colloid...
Doctor of PhilosophyPhysicsAmitabha ChakrabartiThe aim of this work is to explore, using computation...
Molecular-dynamics simulations of stability and diffusion of two small clusters (formula presented) ...
We quantify the long-time self diffusion of colloidal particles confined to the surface of a sphere ...
The structure and dynamics of confined suspensions of particles of arbitrary shape are of interest i...
[[abstract]]©2004 AIP - The normalized overall rate constant kp/kf for diffuse-and-incorporate proce...
[[abstract]]©2002 AIP - A first-passage scheme is devised to determine the overall rate constant of ...
In this work, we illustrate two approaches to the simulation of surface diffusion over a sphere coup...
Red spheres represent top 85% and bottom 15% of diffusivity. A) diffusivity clusters over entire ran...
On the basis of Brownian dynamics computer simulation studies, we investigate the structure and dyna...
Modeling diffusion of nonspherical particles presents an unsolved and considerable challenge, despit...
[[abstract]]©2006 AIP - The normalized overall rate constant, kp/kf for diffusion-limited processes ...
<p>Subplots a-c: CDFs of the angular component of particles diffusing on the surface of shrinking sp...
We address the problem of diffusional interactions in a finite sized cluster of spherical particles ...
Starting from a Zimm model, we study self-diffusion in a solution of crosslinked monomers. We focus ...
Translational tracer diffusion of spherical macromolecules in crowded suspensions of rodlike colloid...
Doctor of PhilosophyPhysicsAmitabha ChakrabartiThe aim of this work is to explore, using computation...
Molecular-dynamics simulations of stability and diffusion of two small clusters (formula presented) ...
We quantify the long-time self diffusion of colloidal particles confined to the surface of a sphere ...
The structure and dynamics of confined suspensions of particles of arbitrary shape are of interest i...