Results 1 - 10 of 165
[PROJECT] RAMSES - Robust Advanced Materials for metal Supported SOFC
ID: 256768
Start date: 2011-01-01, End date: 2014-05-31
The RAMSES project aims at developing an innovative high performance, robust, durable and cost-effective Solid Oxide Fuel Cell based on the Metal Supported Cell concept i.e. the deposition of thin ceramic electrodes and electrolyte on a porous metallic substrate. Both planar ...
Programme: FP7-JTI
Record Number: 97939
Last updated on: 2017-05-30
[PROJECT] SURFSPEC - Theoretical multiphoton spectroscopy for understanding surfaces and interfaces
ID: 279619
Start date: 2011-09-01, End date: 2016-08-31
"The project will develop new methods for calculating nonlinear spectroscopic properties, both in the electronic as well as in the vibrational domain. The methods will be used to study molecular interactions at interfaces, allowing for a direct comparison of experimental obse...
Programme: FP7-IDEAS-ERC
Record Number: 100176
Last updated on: 2015-03-10
[REPORT SUMMARY] Mid-Term Report Summary - SURFSPEC (Theoretical multiphoton spectroscopy for understanding surfaces and interfaces)
The SURFSPEC project has two main objectives: The development of accurate and flexible ab initio methods for the theoretical investigation of nonlinear electronic and vibrational spectroscopies, and the use of these methodologies to obtain insight into the information content...
Programme: FP7-IDEAS-ERC
Record Number: 180202
Last updated on: 2016-04-18
[REPORT SUMMARY] Final Report Summary - FREECATS (Doped carbon nanostructures as metal-free catalysts)
FREECATS is primarily aimed at generating new fundamental knowledge and fostering new prospects and frontiers in the field of catalysis for the sustainable production of chemicals and commodities. New tailored metal-free catalytic architectures are designed...
Programme: FP7-NMP
Record Number: 181722
Last updated on: 2016-03-31
[RESULT IN BRIEF] Metallfreie Katalysatoren ersetzen Katalysatoren auf Basis von Metall
Von Natur aus gibt es keine metallfreien Materialien mit katalytischen Eigenschaften, die ebenso wirksam wie Edelmetalle sind. Deshalb haben Forscher bei der Entwicklung von Kohlenstoffstrukturen, die zur Bindung oder Umwandlung von Substanzen auf die gewünschte Weise geeignet sind, in den Einsatz der Nanotechnologiezu investiert.
Programme: FP7-NMP
Record Number: 170298
Last updated on: 2016-07-18
[RESULT IN BRIEF] Catalizadores sin metales en lugar de catalizadores a base de metales
Los materiales con propiedades catalíticas y sin metales son igual de eficaces, teniendo en cuenta que los metales preciosos no existen como tales de forma natural. Por este motivo, un grupo de investigadores estudió el uso de la nanotecnología para desarrollar estructuras de carbono capaces de enlazar o transformar sustancias de la forma deseada.
Programme: FP7-NMP
Record Number: 170298
Last updated on: 2016-07-18
[RESULT IN BRIEF] Metal-free catalysts in the place of metal-based catalysts
Metal-free materials with catalytic properties that are equally effective as precious metals do not exist naturally. So, researchers invested in the use of nanotechnology to develop carbon structures capable of binding or transforming substances in the desired way.
Programme: FP7-NMP
Record Number: 170298
Last updated on: 2016-07-18
Materiali privi di metallo con proprietà catalitiche efficaci quanto i metalli preziosi non esistono in natura. Per questo motivo, i ricercatori hanno investito nell’uso della nanotecnologia per sviluppare strutture in carbonio in grado di legare o trasformare le sostanze nel modo desiderato.
Programme: FP7-NMP
Record Number: 170298
Last updated on: 2016-07-18
[RESULT IN BRIEF] De nouveaux catalyseurs, qui se passent de métaux
Les matériaux sans métaux mais aussi efficaces pour la catalyse que les métaux précieux n'existent pas dans la nature. Des chercheurs ont donc fait appel aux nanotechnologies afin de mettre au point des structures à base de carbone, capables de lier ou transformer les substances de la façon voulue.
Programme: FP7-NMP
Record Number: 170298
Last updated on: 2016-07-18
Niezawierające metalu materiały o właściwościach katalitycznych, które są równie skuteczne jak metale szlachetne, nie występują naturalnie. Naukowcy postanowili zatem wykorzystać nanotechnologię w celu opracowania struktur węglowych zdolnych do wiązania lub przekształcania substancji w pożądany sposób.
Programme: FP7-NMP
Record Number: 170298
Last updated on: 2016-07-18
List retrieved on: 2017-08-02
