![]() | ![]() | ![]() | ![]() | |||||||||||
![]() | ![]() | |||||||||||||
![]() | ![]() | ![]() | ||||||||||||
![]() | ![]() | |||||||||||||
![]() |
| ![]() | ||||||||||||
![]() | ||||||||||||||
diese Seite auf deutsch
| ||||||||||||||
|
xirrus simulation - Nanoimaging of soapsDishwashing with soap? So antiquated. A dishwashing detergent shall primarily dissolve fat and dirt. But this is not sufficient for a modern product.
Therefore, it is crucial to meticulously tune active ingredients with each other, concerning not only their effects, but also their dosage.
Nanoimaging depicts the molecular mode of actionSoap molecules tend to linger in groups. With today's computing power, it is possible to explore detergents including their additives and evaluate their properties when used in calcareous tap water.The following images show concentrated detergent as available on shelf when dissolved in tap water. It is clearly visible how the grey-green tails of the soap molecules group in a sheaves-like structure.
The restructuring of a soap solution after adding water is so quick such that the interplay between active ingredients can be estimated. As a result, it can be determined which particular ingredients cooperate well in which concentration. Such a result would be difficult to obtain by experimental measuring equipment.
The computer laboratory for product developersAre you developing new formulations? Then you are often confronted with contradictory requirements to the ingredients. Which ones impede each others effect? Which ones potentiate synergetically?Our computer laboratory provides answers to such questions, both in picture by nanoimaging the molecular processes, and quantitatively by precise analyses. Need persuasion? Contact us. | |||||||||||||
![]() | ||||||||||||||
![]() |
| |||||||||||||
![]() |