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On-lattice Monte Carlo simulations of colloidal random-stacking hard-sphere colloidal crystals are presented. The model yields close-packed crystals with random-stacking hexagonal structure. We find a significant amount of in-plane stacking disorder, which slowly anneals in the course of the simulation. The in-plane stacking disorder leads to lateral broadening of the stacking-disorder-induced Bragg rods. It is found that not only the scattering intensity, but also the width is modulated along the Bragg rods
A coherent X-ray diffraction study of a single colloidal crystal grain composed of silica spheres is...
Abstract Vacancy dynamics of high‐density 2D colloidal crystals with a polydispersity in particle si...
Synchrotron small-angle x-ray diffraction images of random-stacking-induced Bragg scattering rods ar...
We demonstrate that in random-stacking hard-sphere colloidal crystals the stacking disorder not only...
We demonstrate that randomly stacked hard-sphere colloidal crystals do not merely consist of random ...
Due to the lateral stacking disorder, random hexagonally closed-packed hard-sphere crystals consist ...
This thesis is made up of several studies of boundaries occurring in colloidal hard sphere crystals ...
Microradian X-ray diffraction from sedimentary colloidal crystals is studied using synchrotron radia...
In 1997 Zhu et al. [1] opened a question th 瓜 whythe stacking disorder in the hard sphere (HS) collo...
We estimate the rate at which randomly stacked hard-sphere crystals transform into the thermodynamic...
In this paper we use computer simulations to examine point defects in systems of "soft"colloidal par...
The presence of second-type disorder in self-organised colloidal crystals is demonstrated on the bas...
The present work reports results of a detailed x-ray diffraction study of the structure and long-ran...
Colloidal particles, i.e. particles at the nanometer scale, experience random motion (Disorder), gen...
A coherent X-ray diffraction study of a single colloidal crystal grain composedof silica spheres is ...
A coherent X-ray diffraction study of a single colloidal crystal grain composed of silica spheres is...
Abstract Vacancy dynamics of high‐density 2D colloidal crystals with a polydispersity in particle si...
Synchrotron small-angle x-ray diffraction images of random-stacking-induced Bragg scattering rods ar...
We demonstrate that in random-stacking hard-sphere colloidal crystals the stacking disorder not only...
We demonstrate that randomly stacked hard-sphere colloidal crystals do not merely consist of random ...
Due to the lateral stacking disorder, random hexagonally closed-packed hard-sphere crystals consist ...
This thesis is made up of several studies of boundaries occurring in colloidal hard sphere crystals ...
Microradian X-ray diffraction from sedimentary colloidal crystals is studied using synchrotron radia...
In 1997 Zhu et al. [1] opened a question th 瓜 whythe stacking disorder in the hard sphere (HS) collo...
We estimate the rate at which randomly stacked hard-sphere crystals transform into the thermodynamic...
In this paper we use computer simulations to examine point defects in systems of "soft"colloidal par...
The presence of second-type disorder in self-organised colloidal crystals is demonstrated on the bas...
The present work reports results of a detailed x-ray diffraction study of the structure and long-ran...
Colloidal particles, i.e. particles at the nanometer scale, experience random motion (Disorder), gen...
A coherent X-ray diffraction study of a single colloidal crystal grain composedof silica spheres is ...
A coherent X-ray diffraction study of a single colloidal crystal grain composed of silica spheres is...
Abstract Vacancy dynamics of high‐density 2D colloidal crystals with a polydispersity in particle si...
Synchrotron small-angle x-ray diffraction images of random-stacking-induced Bragg scattering rods ar...
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