Moteur de recherche d’entreprises européennes

Conseils & Astuces
Nos pages FAQ tout sur la recherche en un clic et aperçu de la recherche avancée expliquent comment utiliser notre moteur de recherche.

Financement de l’UE (1 692 000 €) : Technologies optiques/quasi-optiques innovantes et nano-ingénierie de matériaux anisotropes pour la création de cellules actives avec une efficacité énergétique … Hor24/01/2018 Programme de recherche et d'innovation de l'UE « Horizon »

Vue d’ensemble

Texte

Technologies optiques/quasi-optiques innovantes et nano-ingénierie de matériaux anisotropes pour la création de cellules actives avec une efficacité énergétique considérablement améliorée

The principal goal of the project is to combine research expertise in optics, crystallography and material science with efforts in material engineering to go beyond state-of-the-art in the development of highly efficient energy saving optical cells based on electro-, acousto- and nonlinear optical effects and designed to operate in optical and quasi-optical (sub-THz) ranges. The idea of the project arises from recent advances in nano engineering combined with our technology for optimization of effects in anisotropic materials. We aim to benefit from enhanced anisotropic features, considering both materials with natural anisotropy and those with created and/or tailored anisotropy. Background will be developed by calculating parametric effects tensors for selected crystalline materials. Then, two routes to create samples characterized by the highest figures of merit will be implemented. 3D anisotropy analysis approach will be used for finding global extremes of effects under study and will provide technical information needed to manufacture novel nanocomposites with tailored anisotropy. Nanoengineering approach will be based on growing of nanocrystallites along preferable directions and incorporating them into porous host medium. It is expected to achieve considerable improvements of the operating energy characteristics for bulk and nanocomposite materials. It is planned to reach the proof of concept stage for the optical cells with improved performance and compare their characteristics to those, available on the market. Measures will be undertaken for developing the concept into innovative products. The research will be linked to the large-scale training program for the Seconded Staff Members with specific individual objectives. Based on synergies between all participating organizations and networking activities we expect to increase Europe's attractiveness and competitiveness as leading destination for R&I, particularly in optic/nanoengineering research niche.
Energia Oze sp. z o.o. 171 000 €
FORSCHUNGSZENTRUM JULICH GmbH 99 000 €
Lviv Polytechnic National University 387 000 €
Politechnika Czestochowska 256 500 €
Politechnika Warszawska 139 500 €
Private Enterprise Softpartners 252 000 €
Scientific Research Company Electron-Carat Branch OF Private АО Concern-Electron 198 000 €
SMARTMEMBRANES GmbH 49 500 €
Universite d'Angers 139 500 €

https://cordis.europa.eu/project/id/778156

Cette annonce se réfère à une date antérieure et ne reflète pas nécessairement l’état actuel.