Hypothesis: Colloidal cubic silica shells, prepared from cuprous oxide cubes, with a typical size of 100 nm are promising model particles for scattering studies on dilute, as well as concentrated fluids, of non-spherical colloids. Experiments: Small angle X-ray scattering, and static light scattering are employed to determine form factors of cubic silica shells and silica covered cuprous oxide cubes. Contrast variation experiments are performed to assess the refractive index and optical homogeneity of the cubic silica shells, which is important for the extension of the scattering study to concentrated dispersions of cubic shells in Part II (Dekker, submitted for publication). Results: The experimental form factors, which compare well to the...
Scattering enhancers are a class of nanomaterials used in every colored or white material surroundin...
In this paper we report measurements of the form factor and the structure factor of a sterically sta...
Silica precipitations were carried out at high pH (7-10) and elevated temperatures (60-90 degrees C)...
Hypothesis: Colloidal cubic silica shells, prepared from cuprous oxide cubes, with a typical size of...
Hypothesis: Colloidal cubic silica shells, prepared from cuprous oxide cubes, with a typical size of...
Hypothesis: The shape of colloidal particles affects the structure of colloidal dispersions. The eff...
Hypothesis: The shape of colloidal particles affects the structure of colloidal dispersions. The eff...
The shape of colloidal particles affects the properties in colloidal mixtures; mixtures where one of...
We present a preparation method for hollow silica nanocubes with tuneable size and shape in the rang...
Silica hydrogels show fractal properties corresponding with DLCAA or RLCCA. During aging silica is r...
The contrast variation method, well known from small-angle neutron and X-ray experiments, is applied...
A series of colloidal nanocomposite dispersions are synthesized by alcoholic dispersion polymerizati...
Nous montrons que les interactions statiques et dynamiques d'un système colloïdal, formé de sphères ...
In this paper we report measurements of the form factor and the structure factor of a sterically sta...
Scattering enhancers are a class of nanomaterials used in every colored or white material surroundin...
In this paper we report measurements of the form factor and the structure factor of a sterically sta...
Silica precipitations were carried out at high pH (7-10) and elevated temperatures (60-90 degrees C)...
Hypothesis: Colloidal cubic silica shells, prepared from cuprous oxide cubes, with a typical size of...
Hypothesis: Colloidal cubic silica shells, prepared from cuprous oxide cubes, with a typical size of...
Hypothesis: The shape of colloidal particles affects the structure of colloidal dispersions. The eff...
Hypothesis: The shape of colloidal particles affects the structure of colloidal dispersions. The eff...
The shape of colloidal particles affects the properties in colloidal mixtures; mixtures where one of...
We present a preparation method for hollow silica nanocubes with tuneable size and shape in the rang...
Silica hydrogels show fractal properties corresponding with DLCAA or RLCCA. During aging silica is r...
The contrast variation method, well known from small-angle neutron and X-ray experiments, is applied...
A series of colloidal nanocomposite dispersions are synthesized by alcoholic dispersion polymerizati...
Nous montrons que les interactions statiques et dynamiques d'un système colloïdal, formé de sphères ...
In this paper we report measurements of the form factor and the structure factor of a sterically sta...
Scattering enhancers are a class of nanomaterials used in every colored or white material surroundin...
In this paper we report measurements of the form factor and the structure factor of a sterically sta...
Silica precipitations were carried out at high pH (7-10) and elevated temperatures (60-90 degrees C)...