Search for European Projects

10 European Projects Found

Searched on 125080 European Projects

 FINISHED 
MARS-EV aims to overcome the ageing phenomenon in Li-ion cells by focusing on the development of high-energy electrode materials (250 Wh/kg at cell level) via sustainable scaled-up synthesis and safe electrolyte systems with improved cycle life (> 3000 cycles at 100%DOD). Through industrial prototype cell assembly and testing coupled with modelling MARS-EV will improve the understanding of the age ...
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 17

 FINISHED 

Advanced materials for batteries (MAT4BAT)

Start date: Sep 1, 2013, End date: Feb 28, 2017,

"Li-ion technologies initiated in the 90’ at a fast development pace thanks mainly to emerging ICTs with more than 20 GWh sold in 2010. Soon, it appeared as a credible technology for electrical vehicles as it could provide average energy densities of about 140 Wh/kg. However and since then,major breakthroughs have been expected to reach higher storage levels of 250 Wh/kg on battery system level wi ...
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 18

 FINISHED 
GREENLION is a Large Scale Collaborative Project with the FP7 (topic GC.NMP.2011-1) leading to the manufacturing of greener and cheaper Li-Ion batteries for electric vehicle applications via the use of water soluble, fluorine-free, high thermally stable binders, which would eliminate the use of VOCs and reduce the cell assembly cost.GREENLION has 6 key objectives: (i) development of new act ...
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 19

 FINISHED 

Efficient use of resources in energy converting applications (EURECA)

Start date: Jul 1, 2012, End date: Aug 31, 2015,

EURECA develops the next generation of µ-CHP systems based on advanced PEM stack technology.The idea is to overcome the disadvantages of complex gas purification, gas humidification and the low temperature gradient for the heat exchangers in a heating system. EURECA will develop a new stack generation based on PEM technology with operating temperatures of 90°C to 120°C. Thus results in a less comp ...
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 9

 FINISHED 
Electric car is considered as the most promising technical solution for automotive industries in 21st century since the use of electric energy not only slows down the petrol consumption but also contribute to reduce the CO2 emission and toxic air pollutants.Due to its good performance, Li-ion battery is generally studied to meet the above demands. However, it is still not satisfactory for long dis ...
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 8

 FINISHED 

Lithium Sulfur Superbattery Exploitating Nanotechnology (LISSEN)

Start date: Sep 1, 2012, End date: Aug 31, 2015,

"This project is aimed to the identification and development of nanostructured electrode and electrolyte materials to promote the practical implementation of the very high energy lithium-sulfur battery. In particular, the project will be directed to the definition and test of a new, lithium metal-free battery configuration based on the use of lithiated silicon as the anode and a nanostructured sul ...
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 16

 FINISHED 
CO2 emissions, noise emissions and other negative impacts caused by present urban delivery concepts and specifically by the delivery vehicles are unsustainable in present and future European urban life. Fully electric light delivery vehicles (LDV) not only offer zero local CO2 emissions and close-to-zero noise emissions.The change in propulsion technology from ICE to electric powertrains will lead ...
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 11

 FINISHED 
SOMABAT aims to develop more environmental friendly, safer and better performing high power Li polymer battery by the development of novel breakthrough recyclable solid materials to be used as anode, cathode and solid polymer electrolyte, new alternatives to recycle the different components of the battery and cycle life analysis.This challenge will be achieved by using new low-cost synthesis and p ...
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 13

 FINISHED 
ORION puts together a multidisciplinary consortium of leading European universities, research institutes and industries with the overall goal of advancing the fabrication of inorganic-organic hybrid materials using ionic liquids. Maximum research efforts within ORION will be addressed to achieve inorganic-organic hybrids with an ordered nanostructure and to understand and characterize the new gene ...
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 18

 FINISHED 
"The PEMFC represents one of the most promising technologies in the field of fuel cells. One of the keys to the success of the PEMFC technology is the development of improved electrolyte membrane materials which can be produced in mass and can operate within a temperature range of 130-200ºC. The ZEOCELL project will develop a nanostructured electrolyte membrane based on a new composite multifuncti ...
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 7