Liten is a major European research institute and a driving force behind the development of the sustainable energy technologies of the future. The institute is spearheading the EU’s efforts to limit dependency on fossil fuels and reduce greenhouse gas emissions in three key areas: renewable energy, energy efficiency/storage and development of materials.
Our platforms, sophisticated tools for industry & the scientific/technical infrastructure/expertise to overcome technological hurdles
Liten's research teams work across a vast portfolio of renewable energy technologies. Cutting-edge photovoltaic technologies are developed at INES, the French National centre for solar research and R&D with Hydrogen and Biomass activities being managed from the LITEN's main site in Grenoble, Rhone-Alpes.
“Radically improving energy efficiency will reduce the need for investment in energy infrastructure, cut fuel costs, increase competitiveness, lessen exposure to fuel price volatility, increase energy affordability for low-income households and cut local and global pollutants improving consumer welfare” Source OECD Energy report, 2014
From nanosecurity, nanocharacterisation,and anti-counterfeiting technology to the development of advanced materials and point of sale: a comprehensive offering.
Transverse activities help add value to our technology portfolio. An optimised modeling and characterisation model, for example, can help reduce time to market. Browse this section to find out more....
European ＆ international partnerships | Energy efficiency
INTEGRAL is an Innovation Action project coordinated by CEA within the PILOTS-01-2016 call of the Horizon 2020 Framework Programme
Thermoelectric materials are able to directly convert heat into electricity. The conversion yield is low, but when the heat is lost anyway, like in thermal engines or in energy intensive industries, any benefit is good to take. Most current thermoelectric materials are based on rare or toxic elements, which precludes their implementation at large scale. More sustainable materials have been extensively investigated over the years, but mostly at laboratory scale. Furthermore, they failed so far to achieve sufficient performance levels to justify heavy industrial investments towards full scale production and market introduction. At last the INTEGRAL Project gathers high level experts within three value chains where thermoelectric generators are expected to fulfil significant market needs: individual cars, transportation trucks and distant sensors in energy intensive industries, e.g. metal or glass production.
INTEGRAL is an Innovation Action project coordinated by CEA within the PILOTS-01-2016 call of the Horizon 2020 Framework Programme. The originality of the project is to involve industrial producers and converters of thermoelectric materials as well as their end-users and final customers, thus covering the whole development chain. Unlike previous projects, INTEGRAL is expected to be a decisive milestone in industrial production and sustainable use of thermoelectric generators for energy harvesting.
Three major Pilot Lines or Technology Platforms in Europe will support key industrial stakeholders in improving material performance and process parameters, which will allow them to scale-up industrial production of thermoelectric materials. CEA’s Technology Platform Poudr’Innov 2.0 hosted the first project meeting in Grenoble.
INTEGRAL is funded by the European Commission under Grant Agreement number 720878 with a total budget of 8.5 million Euros, of which 7 million financial support by the Commission. The consortium is composed of 12 partners from 8 European countries:
Contact person: Jean-Yves Escabasse, project manager Jean-Yves.ESCABASSE@cea.fr
CEA is a French government-funded technological research organisation in four main areas: low-carbon energies, defense and security, information technologies and health technologies. A prominent player in the European Research Area, it is involved in setting up collaborative projects with many partners around the world.