Results 41 - 50 of 2643
[RESULT IN BRIEF] Graphene one step closer to commercial use
Graphene, a one-atom–thick sheet of carbon atoms, is touted for its potential to yield electronic components at the nanoscale and improves the energy capacity of rechargeable batteries. But first, researchers must find a way to control the synthesis of this unusual form of carbon.
Programme: FP7-NMP
Record Number: 90801
Last updated on: 2013-03-29
[RESULT IN BRIEF] Die kommerzielle Nutzung von Graphen ist einen Schritt weiter
Graphen, eine Ein-Atom–dicke Schicht von Kohlenstoffatomen, ist aufgrund dessen Ertragspotenzial für elektronische Komponenten im Nanobereich und der Energiekapazität für aufladbare Batterien heiß begehrt. Zunächst müssen Forscher jedoch einen Weg finden, um die Synthetisierung dieser ungewöhnlichen Kohlenstoffform zu kontrollieren.
Programme: FP7-NMP
Record Number: 90801
Last updated on: 2013-03-29
[RESULT IN BRIEF] Nuevo avance hacia el uso comercial del grafeno
El grafeno es una lámina de átomos de carbono de un átomo de espesor y es conocido por sus características propicias para producir compuestos electrónicos nanométricos y mejorar la capacidad energética de las baterías recargables. Con esos fines, se debe poder controlar la síntesis de esta forma infrecuente del carbono.
Programme: FP7-NMP
Record Number: 90801
Last updated on: 2013-03-29
[RESULT IN BRIEF] Il grafene è un passo più vicino all’uso commerciale
Il grafene, uno strato di atomi di carbonio con spessore monoatomico, è tenuto in grande considerazione per il suo potenziale di produrre componenti elettronici in nanoscala e di migliorare la capacità energetica delle batterie ricaricabili. Ma prima i ricercatori devono trovare un modo per controllare la sintesi di questa straordinaria forma di carbonio.
Programme: FP7-NMP
Record Number: 90801
Last updated on: 2013-03-29
[RESULT IN BRIEF] Le graphène toujours plus proche d'une utilisation commerciale
Le graphène, qui est une feuille d'atomes de carbone d'une épaisseur d'un atome, est vanté pour son potentiel de création de composants électroniques nanométriques et il améliore la capacité en énergie des batteries rechargeables. Mais les chercheurs doivent d'abord trouver un moyen de contrôler la synthèse de cette forme inhabituelle de carbone.
Programme: FP7-NMP
Record Number: 90801
Last updated on: 2013-03-29
[RESULT IN BRIEF] Grafen o krok bliżej do komercyjnego zastosowania
Grafen, arkusz atomów węgla o grubości jednego atomu, zachwalany jest ze względu na swój potencjał wykorzystywania komponentów elektronicznych w skali nano oraz możliwość zwiększania przepustowości energetycznej doładowywanych akumulatorów. Jednak wcześniej naukowcy muszą znaleźć sposób na kontrolowanie syntezy tej niezwykłej formy węgla.
Programme: FP7-NMP
Record Number: 90801
Last updated on: 2013-05-20
[PROJECT] GRENADA - GRaphenE for NAnoscaleD Applications
ID: 246073
Start date: 2011-01-01, End date: 2013-12-31
The semiconductor industry has been able to improve the performance of electronic system by making ever-smaller devices. However, this approach will soon encounter both scientific and technical limits, which is why the industry is exploring alternative device technologies. Ca...
Programme: FP7-NMP
Record Number: 97482
Last updated on: 2017-06-26
[PROJECT] METIQUM - Mesoscopic THz impedance microscopy for quantum materials
ID: 339306
Start date: 2014-05-01, End date: 2019-04-30
An important frontier in condensed matter physics is the understanding of quantum materials in which different ground states compete, leading to electronic inhomogeneity and the concept of ‘quantum electronic liquid crystals’. The challenge for experiments is to measure the l...
Programme: FP7-IDEAS-ERC
Record Number: 188490
Last updated on: 2017-06-26
[REPORT SUMMARY] Mid-Term Report Summary - METIQUM (Mesoscopic THz impedance microscopy for quantum materials)
The goal of our project is to develop a scanning impedance microscope operating in the THz frequency range to enable the study of materials, which contain a buried inhomogeneous electronic landscape. The project is timely because of a number of problems appearing in the study...
Programme: FP7-IDEAS-ERC
Record Number: 195462
Last updated on: 2017-03-13
[PROJECT] DM - Dirac Materials
ID: 321031
Start date: 2013-04-01, End date: 2018-03-31
"The elegant Dirac equation, describing the linear dispersion (energy/momentum) relation of electrons at relativistic speeds, has profound consequences such as the prediction of antiparticles, reflection less tunneling (Klein paradox) and others. Recent discovery of graphene ...
Programme: FP7-IDEAS-ERC
Record Number: 106932
Last updated on: 2015-03-11
List retrieved on: 2017-08-02
