Add to ORKGSelf-assembly and alignment of anisotropic colloidal particles are important processes that can be influenced by external electric fields. However, dielectric nanoparticles are generally hard to align this way because of their small size and low polarizability. In this work, we employ the coupled dipole method to show that the minimum size parameter for which a particle may be aligned using an external electric field depends on the dimension ratio that defines the exact shape of the particle. We show, for rods, platelets, bowls, and dumbbells, that the optimal dimension ratio (the dimension ratio for which the size parameter that first allows alignment is minimal) depends on a nontrivial competition between particle bulkiness and anisotropy...
Structures of nanometer and micrometer sized particles exhibit a variety of useful properties both a...
Measurement of the three-dimensional orientation of a single nanoemitter Many applications (includin...
Directed assembly of dielectric and paramagnetic nanoparticles can be used to synthesize diverse fun...
Self-assembly and alignment of anisotropic colloidal particles are important processes that can be i...
Self-assembly and alignment of anisotropic colloidal particles are important processes that can be i...
We employ the coupled dipole method to calculate the polarizability tensor of various anisotropic di...
Understanding the ensemble microstructure, interactions, and dynamics of anisotropic particle struct...
International audienceDirected assembly of nanoparticles is a promising alternative for original nan...
The central theme of this thesis is exploiting the directed self-assembly of both isotropic and anis...
We study the polarizability of colloidal particles, as well as their interparticle interactions in t...
The range of electrostatic interactions controls precisely the mutual orientations of assembling cha...
This article reviews polarizability properties of particles and clusters. Especially the effect of s...
Graduation date: 2010The experimental and theoretical bases of transient electric birefringence (TEB...
This work reveals a torque from electric field to electrically neutral flakes that are suspended in ...
Dense systems of magnetic nanoparticles may exhibit dipolar collective behavior. However, two fundam...
Structures of nanometer and micrometer sized particles exhibit a variety of useful properties both a...
Measurement of the three-dimensional orientation of a single nanoemitter Many applications (includin...
Directed assembly of dielectric and paramagnetic nanoparticles can be used to synthesize diverse fun...
Self-assembly and alignment of anisotropic colloidal particles are important processes that can be i...
Self-assembly and alignment of anisotropic colloidal particles are important processes that can be i...
We employ the coupled dipole method to calculate the polarizability tensor of various anisotropic di...
Understanding the ensemble microstructure, interactions, and dynamics of anisotropic particle struct...
International audienceDirected assembly of nanoparticles is a promising alternative for original nan...
The central theme of this thesis is exploiting the directed self-assembly of both isotropic and anis...
We study the polarizability of colloidal particles, as well as their interparticle interactions in t...
The range of electrostatic interactions controls precisely the mutual orientations of assembling cha...
This article reviews polarizability properties of particles and clusters. Especially the effect of s...
Graduation date: 2010The experimental and theoretical bases of transient electric birefringence (TEB...
This work reveals a torque from electric field to electrically neutral flakes that are suspended in ...
Dense systems of magnetic nanoparticles may exhibit dipolar collective behavior. However, two fundam...
Structures of nanometer and micrometer sized particles exhibit a variety of useful properties both a...
Measurement of the three-dimensional orientation of a single nanoemitter Many applications (includin...
Directed assembly of dielectric and paramagnetic nanoparticles can be used to synthesize diverse fun...