Self-assembly is the process of spontaneous organization of a set of interacting components. We examine how particle shape drives the self-assembly of colloids in three different systems. When particles interact only via their shape, entropic crystallization can occur; we discuss a design strategy using the Voronoi tesslelation to create “Voronoi particles,” (VP) which are hard particles in the shape of Voronoi cells of their target structure. Although VP stabilize their target structure in the limit of infinite pressure, the self-assembly of the same structure at moderate pressure is not guaranteed. We find that more symmetric crystals are often preferred due to entropic contributions of several kBT from configurational degeneracies. We...
This PhD-thesis presents a study on micron-sized particles, so-called colloids. By con...
Colloidal self-assembly promises to be an elegant and efficient route to the bottom-up fabrication o...
This dissertation presents studies on self-organization in soft matter systems. A wide variety of sy...
Anisotropic colloidal particles can serve as the building block for a variety of complex materials w...
We study the effect of entropic forces in the preferential binding of colloidal building blocks towa...
Anisotropic building blocks assembled from colloidal particles are attractive building blocks for se...
Hypothesis: Colloidal molecules with anisotropic shapes and interactions are powerful model systems ...
In recent years there has been much interest in the self-assembly of materials. Much of this researc...
Over the last two decades researchers have advanced the field of colloidal synthesis by developing n...
Self-assembly is a ubiquitous process that holds great promise for the design and engineering of new...
On the road to the development of new methods to fabricate complex materials, nature has always been...
No abstract.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/34250/1/10413_ftp.pd
A holy grail in materials science research remains the solution of the inverse design of desired cry...
AbstractAn increasing theoretical and experimental effort has been recently dedicated to the design ...
In the microscopic world of self-assembly, function follows form. Driven by their ever-present rando...
This PhD-thesis presents a study on micron-sized particles, so-called colloids. By con...
Colloidal self-assembly promises to be an elegant and efficient route to the bottom-up fabrication o...
This dissertation presents studies on self-organization in soft matter systems. A wide variety of sy...
Anisotropic colloidal particles can serve as the building block for a variety of complex materials w...
We study the effect of entropic forces in the preferential binding of colloidal building blocks towa...
Anisotropic building blocks assembled from colloidal particles are attractive building blocks for se...
Hypothesis: Colloidal molecules with anisotropic shapes and interactions are powerful model systems ...
In recent years there has been much interest in the self-assembly of materials. Much of this researc...
Over the last two decades researchers have advanced the field of colloidal synthesis by developing n...
Self-assembly is a ubiquitous process that holds great promise for the design and engineering of new...
On the road to the development of new methods to fabricate complex materials, nature has always been...
No abstract.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/34250/1/10413_ftp.pd
A holy grail in materials science research remains the solution of the inverse design of desired cry...
AbstractAn increasing theoretical and experimental effort has been recently dedicated to the design ...
In the microscopic world of self-assembly, function follows form. Driven by their ever-present rando...
This PhD-thesis presents a study on micron-sized particles, so-called colloids. By con...
Colloidal self-assembly promises to be an elegant and efficient route to the bottom-up fabrication o...
This dissertation presents studies on self-organization in soft matter systems. A wide variety of sy...