Coordinating energy research for a low carbon Europe

Advanced Materials and Processes for Energy Application (AMPEA)

Have a look at the participants/associates

Participants/Associates (to date : August 2015)

CEA (FR), CELLS-ALBA (ES), CIEMAT (ES), CNR (IT), CSIC (ES),  DIFFER (NL), DLR (DE), DTU (DK), EMPA (CH),  ENEA (IT), HZBerlin (DE), FZJülich (DE), Fraunhofer (DE), ICIQ (ES), IFPEN (FR), IREC (ES)J. Heyrovsky Institute of Physical Chemistry (CZ), JKU (AT),  Max Planck Gesellschaft (DE), Politecnico di Torino (IT), PSI (CH), TECNALIA (ES), TU Delft (NL), Université de Lorraine (FR), University of Bologna (IT), University of Ferrara (IT), University of Glasgow (UK),  University of Limerick (IE), Umea University (SE), Uppsala University (SE), SINTEF (NO), UKERC (UK),  VTT (FI)

JP AMPEA gathers 31 full members and 3 associate members. Additional participants and associates are expected.


The SET-Plan road-map stresses the importance of fostering basic science as a way to obtain breakthrough for future emerging technologies, and as a source of fundamental problem solving during technology development. A potential Basic Science for Energy JP, aiming at these two goals, was the subject of a first seminar in Paris (May, 3rd 2010), after which a first document was produced and an awareness event was organised to widen the interest in this JP initiative (Nov, 23rd 2010). According to discussions in the first three meetings (January, March, June 2011), it turned out that the most interesting topics, and those where European research would be the most effective, would be about basic materials science, physical chemistry of processes, heat and mass transfer phenomena and dedicated powerful tools to characterise materials and energy devices (especially on large scale facilities). The JP was renamed: AMPEA, which stands for Advanced Materials and Processes for Energy Applications.


The Joint Programme AMPEA has organized its work within 3 sub-programmes:

  • SP1: New materials
  • SP2: Physical modelling
  • SP3: Characterisation plaforms for materials and devices