Add to ORKGUniversity of Minnesota Ph.D. dissertation. November 2017. Major: Physics. Advisor: Jorge Vinals. 1 computer file (PDF); ix, 165 pages.Electrokinetic phenomena, including electrophoresis and electroosmosis, provide a significant tool for engineering the transport of fluids and particles at microscopic scales. This thesis describes additional mechanisms for generating electrokinetic flow by using a nematic liquid crystal electrolyte. Under an applied electric field the anisotropic properties of the liquid crystal lead to separation of ionic impurities present in the fluid, which couple with the applied field to produce electrostatic forces that drive fluid and particle motion. This force is quadratic in the electric field, implying that syst...
As an environment for rich pattern formation, the electroconvection (EC) of nematic liquid crystals ...
Hypothesis: Colloidal particles in a nematic liquid crystal (NLC) exhibit very different behaviour t...
We consider a system of nonlinear PDEs modeling nematic electrolytes, and construct a dissipative so...
Phenomena of electrically driven fluid flows, known as electro-osmosis, and particle transport in a ...
Phenomena of electrically driven fluid flows, known as electro-osmosis, and particle transport in a ...
Electrically controlled dynamics of fluids and particles at microscales is a fascinating area of res...
Electrokinetics plays an important role in facilitating fluid transport and particle manipulation in...
Particles dispersed in nematic liquid crystals (NLCs), also called nematic colloids, are nowadays ty...
We propose a research field “mechanics of liquid crystals,” in which liquid crystals are studied fro...
We present a theoretical framework to understand the collective dynamics of an ensemble of electroph...
Transport of fluids and particles at the microscale is an important theme in both fundamental and ap...
We describe the realization and controlled transport of water-based microreactors dispersed in a nem...
Suspensions of active polar liquid crystalline polymers (APLC) exhibit complex phenomena such as spo...
Active matter is based on understanding the physical mechanisms that give rise to large scale flows ...
Living cells sense the mechanical features of their environment and adapt to it by actively remodeli...
As an environment for rich pattern formation, the electroconvection (EC) of nematic liquid crystals ...
Hypothesis: Colloidal particles in a nematic liquid crystal (NLC) exhibit very different behaviour t...
We consider a system of nonlinear PDEs modeling nematic electrolytes, and construct a dissipative so...
Phenomena of electrically driven fluid flows, known as electro-osmosis, and particle transport in a ...
Phenomena of electrically driven fluid flows, known as electro-osmosis, and particle transport in a ...
Electrically controlled dynamics of fluids and particles at microscales is a fascinating area of res...
Electrokinetics plays an important role in facilitating fluid transport and particle manipulation in...
Particles dispersed in nematic liquid crystals (NLCs), also called nematic colloids, are nowadays ty...
We propose a research field “mechanics of liquid crystals,” in which liquid crystals are studied fro...
We present a theoretical framework to understand the collective dynamics of an ensemble of electroph...
Transport of fluids and particles at the microscale is an important theme in both fundamental and ap...
We describe the realization and controlled transport of water-based microreactors dispersed in a nem...
Suspensions of active polar liquid crystalline polymers (APLC) exhibit complex phenomena such as spo...
Active matter is based on understanding the physical mechanisms that give rise to large scale flows ...
Living cells sense the mechanical features of their environment and adapt to it by actively remodeli...
As an environment for rich pattern formation, the electroconvection (EC) of nematic liquid crystals ...
Hypothesis: Colloidal particles in a nematic liquid crystal (NLC) exhibit very different behaviour t...
We consider a system of nonlinear PDEs modeling nematic electrolytes, and construct a dissipative so...