Rechercher des projets européens

16 projets européens trouvés

Recherche sur 125080 projets européens

 TERMINÉ 

Multi-modal Optical Diagnostics for Ocular and Neurodegenerative Disease (MOON)

Date du début: 1 nov. 2016, Date de fin: 31 oct. 2020,

The rising life expectancy of EU citizens is creating a dramatic increase in age-related degenerative diseases and associated healthcare costs. The MOON Project (Multi-modal Optical Diagnostics for Ocular and Neurodegenerative Disease) meets this societal challenge by applying photonics to diagnose age-related diseases of the eye and central nervous system. Consistent with the ICT-29-2016: Photoni ...
Voir le projet

 6

 TERMINÉ 

Fibre Nervous Sensing Systems (FINESSE)

Date du début: 1 oct. 2016, Date de fin: 30 sept. 2020,

The unprecedented properties of optical fibres make them ideal to be implemented as 'artificial nervous systems', enabling any tool or structure to become a sensitive and smart object. Conventional optical fibres are small, low-cost and can be seamlessly integrated in materials, in engineering structures and in the environment. By exploiting the most advanced light-matter interactions, these tiny ...
Voir le projet

 10

 TERMINÉ 

Smart Access to Manufacturing for Systems Integration (SMARTER-SI)

Date du début: 1 févr. 2015, Date de fin: 31 janv. 2018,

Over the last decade, development of Smart Systems Integration (SSI) has demonstrated tremendous benefits in terms of enabling new functionalities of diverse products contributing to enormous economic potential with annual efforts in Europe estimated at approx.10 b€. There is significant opportunity for innovative SME’s to further exploit SSI as they are ideally placed to commercialise and drive t ...
Voir le projet

 15

 TERMINÉ 

Access CenTer for PHotonics innovAtion Solutions and Technology support (ACTPHAST)

Date du début: 1 nov. 2013, Date de fin: 31 oct. 2017,

ACTPHAST is a unique "one-stop-shop" European access centre for photonics innovation solutions and technology support (Access CenTre for PHotonics innovAtion Solutions and Technology support). ACTPHAST will support and accelerate the innovation capacity of European SMEs by providing them with direct access to the expertise and state-of-the-art facilities of Europe's leading photonics research cent ...
Voir le projet

 29

 TERMINÉ 
Life threatening infectious diseases and sepsis are worldwide problems with high mortalities. In order to select optimal treatments for the highly heterogeneous group of sepsis patients and to reduce costs, novel multiplexed tools that better characterize the patient and its specific immune response are highly desired.In the novel project "HemoSpec" a multidisciplinary team develops - driven by th ...
Voir le projet

 8

 TERMINÉ 

Development of high-quality crystalline silicon layers on glass (cSiOnGlass)

Date du début: 1 mai 2015, Date de fin: 30 avr. 2017,

The objective of this project is the development of high quality poly silicon (poly-Si) thin films on glass applying liquid-phase crystallization by line focus laser irradiation. Introducing an adequate interface layer between the glass and the silicon film and applying laser crystallization by scanning over thin amorphous or nano-crystalline silicon thin films on glass has been shown to yield hig ...
Voir le projet

 1

 TERMINÉ 

A CANcer Development mOnitor (CanDo)

Date du début: 1 janv. 2014, Date de fin: 28 févr. 2017,

Through further development, integration and validation of micro-nano-bio and biophotonics systems from previous projects CanDo will develop an instrument that will permit the identification and concentration determination of rare cells in peripheral blood for two key societal challenges, early and low cost anti-cancer drug efficacy determination and cancer diagnosis/monitoring.A cellular link bet ...
Voir le projet

 10

 TERMINÉ 

Photonic Resonators Offering minimally invasive Biomedical Examinations (PROBE)

Date du début: 16 févr. 2015, Date de fin: 15 févr. 2017,

"This project aims to reinforce the research excellence of the German Institute of Photonic Technology through knowledge sharing with incoming top-class Australian researcher Dr Stephen Warren-Smith to work in Europe on research in the vibrant field of proteomic sensing.Proteomics, the study of proteins and their function, is a powerful technique that can be used as a diagnostic tool for various h ...
Voir le projet

 1

 TERMINÉ 

Integrated Quantum Information Technology (iQIT)

Date du début: 1 oct. 2011, Date de fin: 31 mars 2015,

IQIT will develop and demonstrate novel routes towards scaling up physical devices for quantum in-formation science (QIS). Communication between different parts of a quantum processor by means of a quantum bus will receive particular attention. Developing a scalable technology will be pursued by first advancing two successful solid-state and atom-optical devices, namely A) arrays of superconductin ...
Voir le projet

 8

 TERMINÉ 
Chemotherapy is the standard care for the treatment of non-small cell lung carcinoma (NSCLC) patients, however most of non-small cell lung cancer tumours are not sensitive to this treatment. As an alternative to chemoterapy, target therapy with gefitinib (epidermal growth factor receptor-tyrosine kinase inhibitor) has been used in clinical practice in patients with tumours harbouring mutations in ...
Voir le projet

 7

 TERMINÉ 
"Recently, research in astrophysics has yielded amazing new insight in the origin, evolution and structure of the Universe, and fundamental processes governing this highly dynamical system. Most of this progress was achieved thanks to the availability of extremely sensitive detectors. Common features for such detectors are extremely low noise and very small background, and the main solutions for a ...
Voir le projet

 9

 TERMINÉ 

Nanomaterials and nanotechnology for advanced photovoltaics (NanoPV)

Date du début: 1 mars 2011, Date de fin: 28 févr. 2014,

The NanoPV project aims at making a breakthrough step-change in photovoltaics by the removal of a set of bottlenecks which have been identified to block the application of nanostructures for high-efficiency, low-cost solar cells. The bottlenecks arise from the present lack of up-scalable processes that can meet the needs for nanomaterials in PV applications, and the lack of relevant equipment and ...
Voir le projet

 12

 TERMINÉ 

All-inorganic nano-rod based thin-film solarcells on glass (ROD-SOL)

Date du début: 1 janv. 2009, Date de fin: 31 déc. 2011,

"Thin film solar cells, based on non-toxic, abundant and air-stable silicon (Si) will probably, based on forecasts, dominate the photovoltaic market in the future and thus replace bulk Si from its leading position. This prognosis is fostered by the strong cost reduction potential due to highly effective materials utilization at low energy consumption. However, thin film Si suffers from inherently ...
Voir le projet

 11

 TERMINÉ 

Multi-functional Analytical Focussed ion beam tool for nanotechnology (FIBLYS)

Date du début: 1 sept. 2008, Date de fin: 31 août 2011,

The project FIBLYS aims at developing an innovative nanostructuring, nanomanipulation and nanoanalysis instrument: a hybrid scanning probe (SPM) and dual beam focussed ion beam (FIB) instrument (including scanning electron microscopy (SEM) capabilities). In addition to an instrument based on conventional dual beam FIB(SEM) technology, an SPM/FIB(SEM) microscope will use both techniques, integrat ...
Voir le projet

 9

 TERMINÉ 
The cause of diseases is often unknown, but their origin can frequently be found at the biomolecular and cellular level situated on nm-scale. Early diagnostics combined with early intervention on that nanoscale is one of the holy grail of modern medicine. Inorganic nanoparticles are very promising agents in that respect. One of the promising biomedical applications of these nanoparticles is their ...
Voir le projet

 8

 TERMINÉ 
HIGH-EF will provide the silicon thin film photovoltaic (PV) industry with a unique process allowing for high solar cell efficiencies (potential for >10%) by large, low defective grains and low stress levels in the material at competitive production costs. This process is based on a combination of melt-mediated crystallization of an amorphous silicon (a-Si) seed layer (2 µm) of the seed layer by a ...
Voir le projet

 8