Search for European Projects

10 European Projects Found

Searched on 125080 European Projects

 FINISHED 
Rapidly developing markets such as green construction, energy harvesting and storage, advanced materials for aerospace, electronics, medical implants and environmental remediation are potential key application targets for nanomaterials. There, nanotechnology has the potential to make qualitative improvements or indeed even to enable the technology. Impacts range from increased efficiency of energy ...
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 26

 FINISHED 
To address the challenges of solar energy capture and storage in the form of a chemical fuel, we will develop a hybrid photoelectrochemical-photovoltaic (PEC-PV) tandem device for light-driven water splitting. This concept is based on a visible light-absorbing metal oxide photoelectrode, which is immersed in water and placed in front of a smaller-bandgap thin film PV cell. This tandem approach ens ...
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 7

 FINISHED 
GLOBASOL will develop new concepts, materials and devices for advanced light harvesting and light management for a panchromatic collection of the solar energy and an unprecedented power conversion efficiency. This will be accomplished by integrating in a single device three light-to-electricity converters, exploiting different regions of the solar spectrum based on sensitized mesoscopic solar cell ...
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 7

 FINISHED 
Dye-sensitized solar cell (DSSC) is the leading technology of third-generation solution-processed solar cells with reported efficiencies in excess of 10%. However despite the huge efforts in the last two decades saturation effects are observed in their performance. Efforts so far have been concentrated towards engineering and fine-tuning of the dyes, the electrolytes and the interface of the dye t ...
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 6

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This project will develop a fabric to harvest and store electrical energy within its fibrous matrix, to fulfill a need for an easily deformable, storable and transportable power supply.This will be achieved through the development of PV fibres and energy storage fibres integrated with control electronics into a textile. This unique approach, moving on from the current state of the art using rigid ...
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 15

 FINISHED 

Photogenerated Hydrogen by Organic Catalytic Systems (PHOCS)

Start date: Dec 1, 2012, End date: Nov 30, 2015,

Aim of the project “Photogenerated Hydrogen by Organic Catalytic Systems (PHOCS)” is the realization of a new-concept,photoelectrochemical system for hydrogen production, based on the hybrid organic/inorganic and organic/liquid interfaces. PHOCS takes the move from the recent demonstration of reduction/oxidation reactions taking place, under visible light and at zero bias, at the interface of an o ...
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 8

 FINISHED 

Efficient Solar Cells based on Organic and hybrid Technology (ESCORT)

Start date: Sep 1, 2010, End date: Aug 31, 2014,

"Widespread uptake of inorganic semiconductor solar cells has been limited, with current solar cell arrays only producing between 4 to 7 GW of the 15 TW (
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 4

 FINISHED 

Sensitizer Activated Nanostructured Solar Cells (SANS)

Start date: Jan 1, 2011, End date: Dec 31, 2013,

Widespread uptake of inorganic semiconductor solar cells has been limited, with current solar cell arrays only producing arround 10 GW of the 15 TW (~0.06%) global energy demand, despite the terrestrial solar resource being 120,000 TW. The industry is growing at a cumulative rate of over 40% per annum, even with effects of the financial crisis. However, to contribute to global power this century, ...
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 11

 FINISHED 
"The proposed project comes with a visionary approach, aiming at development of highly efficient molecular-wire charge transfer platform to be used in a novel generation thin film dye-sensitized solar cells fabricated via organic chemistry routes. The proposed technology combines the assembled dye monolayer’s, linked with organic molecular wires to semiconducting thin film deposited on optically t ...
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 9

 FINISHED 
INNOVASOL aims to develop radically new nanostructured materials for photovoltaic (PV) excitonic solar cells (XSCs) really competitive with traditional energy sources. The main objective is to leapfrog current limitations of third-generation PV devices through a drastic improvement of the materials used for assembling XSCs. The first step is the substitution of the liquid electrolytes, currently u ...
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 8