Grazing-incidence and ultra-small angle x-ray scattering camera (GISAXS/USAXS camera) (Q3297335): Difference between revisions
Jump to navigation
Jump to search
(Changed label, description and/or aliases in en: translated_label) |
(Changed an Item: Edited by the infer coords bot - inferring coordinates from location) |
||||||||||
Property / coordinate location | |||||||||||
49°0'24.73"N, 8°24'12.31"E
| |||||||||||
Property / coordinate location: 49°0'24.73"N, 8°24'12.31"E / rank | |||||||||||
Normal rank |
Revision as of 18:19, 24 October 2021
Project Q3297335 in Germany
Language | Label | Description | Also known as |
---|---|---|---|
English | Grazing-incidence and ultra-small angle x-ray scattering camera (GISAXS/USAXS camera) |
Project Q3297335 in Germany |
Statements
398,227.55 Euro
0 references
796,455.1 Euro
0 references
50.0 percent
0 references
14 November 2017
0 references
30 April 2019
0 references
Karlsruher Institut für Technologie (KIT)
0 references
Das beantragte Großgerät (GISAXS/USAXS-Kamera) erlaubt die quantitative Erfassung von bisher unzugänglichen strukturellen Parametern im Nanometerbereich zur Durchführung innovativer, materialwissenschaftlicher Studien, insbesondere in den Forschungsbereichen der erneuerbaren Energien, der Umwelttechnologie und Ressourcenschonung. Zu den geplanten Studien zählt u.a. die Forschung an Li-Ionen Batterien, Photovoltaikschichten und abgaskatalytischen Prozessen sowie die Entwicklung von Materialien zur effizienten Abwasserreinigung. Mit Hilfe der SAXS-Technologie lassen sich Korrelationen von strukturellen Eigenschaften nanoskaliger Materialien mit funktionalen Anwendungseigenschaften erforschen. Das erlangte Verständnis trägt signifikant zur Ressourcenschonung bei, treibt die Energiewende voran und hilft, den Produktionsstandort und die Wettbewerbsfähigkeit des Landes zu sichern. (German)
0 references
The requested large-scale device (GISAXS/USAXS camera) allows the quantitative detection of previously inaccessible structural parameters in the nanometer range to carry out innovative, material science studies, especially in the research areas of renewable energies, environmental technology and resource conservation. The planned studies include research on Li-ion batteries, photovoltaic layers and exhaust catalytic processes, as well as the development of materials for efficient wastewater treatment. With the help of SAXS technology, correlations of structural properties of nanoscale materials with functional application properties can be investigated. This understanding significantly contributes to resource conservation, drives the energy transition forward and helps to secure the country’s production location and competitiveness. (English)
24 October 2021
0 references
Karlsruhe
0 references
Identifiers
DE_TEMPORARY_114
0 references