We present a theoretical model to describe binary mixtures of semi-flexible rods, applied here to fd-virus suspensions. We investigate the effects of rod stiffness on both monodisperse and binary systems, studying thick-thin and long-short mixtures. For monodisperse systems, we find that fd-virus particles have to be made extremely stiff to even approach the behavior of rigid rods. For thick-thin mixtures, we find increasingly rich phase behavior as the rods are either made more flexible or if their diameter ratio is increased. For long-short rod mixtures we find that the phase behavior is controlled by the relative stiffness of the rods, with increasing the stiffness of the long rods or decreasing that of the short rods resulting in richer...
The linear and nonlinear rheological behavior of two rod-like particle suspensions as a function of ...
This thesis treats the dynamics of the different liquid crystalline mesophases and phase transit...
The reasons physicists give for studying colloids are varied. Our initial motivation was that colloi...
We study suspensions of semiflexible colloidal rods and biopolymers using an Onsager-type second-vir...
We study by means of molecular and Brownian dynamics simulations the influence of bending flexibilit...
We report on the dynamics in colloidal suspensions of stiff viral rods, called fd-Y21M. This mutant ...
High-aspect-ratio colloidal rods are becoming increasingly important in a wide range of technologica...
Colloidal rods form the most basic system to study the origin of self-assembled structures. Dependin...
We study the phase behavior of rod-sphere mixtures in equilibrium and under shear flow. Mixtures of f...
Complex fluids containing low concentrations of slender colloidal rods can display a high viscosity,...
We report on the phase behavior of a model system of colloidal rodlike particles, namely, the filame...
Complex fluids containing low concentrations of slender colloidal rods can display a high viscosity,...
As the simplest form of polymeric materials, rodlike polymers provide a unique opportunity to test a...
The flow of rodlike particle suspensions is of broad practical interest as they are highly susceptib...
We theoretically study the nematic ordering transition of rods that are able to elastically adjust t...
The linear and nonlinear rheological behavior of two rod-like particle suspensions as a function of ...
This thesis treats the dynamics of the different liquid crystalline mesophases and phase transit...
The reasons physicists give for studying colloids are varied. Our initial motivation was that colloi...
We study suspensions of semiflexible colloidal rods and biopolymers using an Onsager-type second-vir...
We study by means of molecular and Brownian dynamics simulations the influence of bending flexibilit...
We report on the dynamics in colloidal suspensions of stiff viral rods, called fd-Y21M. This mutant ...
High-aspect-ratio colloidal rods are becoming increasingly important in a wide range of technologica...
Colloidal rods form the most basic system to study the origin of self-assembled structures. Dependin...
We study the phase behavior of rod-sphere mixtures in equilibrium and under shear flow. Mixtures of f...
Complex fluids containing low concentrations of slender colloidal rods can display a high viscosity,...
We report on the phase behavior of a model system of colloidal rodlike particles, namely, the filame...
Complex fluids containing low concentrations of slender colloidal rods can display a high viscosity,...
As the simplest form of polymeric materials, rodlike polymers provide a unique opportunity to test a...
The flow of rodlike particle suspensions is of broad practical interest as they are highly susceptib...
We theoretically study the nematic ordering transition of rods that are able to elastically adjust t...
The linear and nonlinear rheological behavior of two rod-like particle suspensions as a function of ...
This thesis treats the dynamics of the different liquid crystalline mesophases and phase transit...
The reasons physicists give for studying colloids are varied. Our initial motivation was that colloi...