Zapojení ústavu fyzikální chemie J. Heyrovského AV ČR, Praha do programu AMPEA

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1 Zapojení ústavu fyzikální chemie J. Heyrovského AV ČR, Praha do programu AMPEA Antonín Vlček, Stanislav Záliš

2 Advanced Materials and Processes for Energy Application (AMPEA) Hlavní úkoly Koordinace a podpora společného multidisciplinárního základního výzkumu pro energetické účely (materiály a procesy) Budoucí využití v energetických technologiích a běžících procesech (další JPs) s využitím zkoumaných materiálů Koordinátor Frédéric CHANDEZON, Grenoble, France 43 zúčastněných/připojených institucí 14 EU států

3 AMPEA s activities Coordination activities Networking, workshops, mobility scheme, summer schools, training sessions Collaborative activities Funding opportunities within H2020 to implement common objectives through joint projects Proposing to EERA and the EU a research strategy on basic science for energy to meet the 2020 and 2050 targets in terms of low carbon energy Roadmapping, connections with other EERA JPs to propose common strategies and roadmaps SET Plan Integrated Roadmap Connection with industry

4 Participants/associate members (mid 2015) Austria: Johannes Kepler University Linz Czech Republic: J. Heyrovsky Institute of Physical Chemistry Denmark: DTU Finland: VTT France: CEA, University of Lorraine, IFPEN Germany: Forschung Zentrum Jülich, Helmholtz Zentrum Berlin, Max Planck Gesellschaft, DLR, Fraunhofer Gesellschaft Ireland: University of Limerick Italy: CNR, ENEA, Politecnico di Torino, Universities of Bologna and Ferrara Netherlands: DLO_Biosolar Cells Consortium, DIFFER, TU Delft Norway: SINTEF Spain: CIEMAT, CSIC, ICIQ, CELLS-ALBA, IREC, TECNALIA Sweden: Universities of Uppsala and Umea Switzerland: EMPA, Paul Scherrer Institute United-Kingdom: UKERC, University of Glasgow

5 Partnership: 14 EU countries, 34 organizations (mid 2015)

6 AMPEA is organized in a matricial way with the aim of applying the capacity of 3 Tools subprogrammes (SPs) corresponding to generic research areas to applications SPs related to known emerging energy challenges and domains (see Figure).

7 Connection of AMPEA with other EERA JPs Bioenergy Carbon capture and storage Concentrated Solar Power Energy Storage Fuel cells and hydrogen Geothermal Nuclear materials Ocean Energy Photovoltaic Shale gas Smart cities Smart grids Wind energy Tools

8 Joint Programme Structure Joint Programme Steering Committee (All Participants ) Joint Programme Management Board (Joint Programme Coordinator + Subprogramme Coordinators) SP1: New materials Germany Spain SP2: Physical modelling UK France SP3: Characterization Germany Italy SPA Artificial photosynthesis Germany France SPB: Materials for extreme operating conditions Germany Finland SPC: Low temperature heat recovery Italy

9 Meetings Previous JPSCs: - March 2012: Paris, Kick-off meeting (CEA) - November 2012: Berlin (HZB) - March 2013: Rome (CNR) - October 2013: Uppsala (Uppsala University) - May 2014: Jülich (FZJülich) Workshops on materials for energy devices - November 2014: Valencia (CSIC) Workshops on materials for energy devices - June 2015: London (UCL, UKERC) Workshops on modelling and characterization - November 2015: Torino Workshops on Low temperature heat recovery Next JPSC: - ENEA Rome - JP Heyrovsky Institute in Prague - Lorraine University in Nancy

10 JH-Institute, Prague Semiconducting photoelectrodes All-carbon electrodes Composite electro/photocatalysts Porous photocatalytic materials New molecular photocatalysts Quantum chemical modelling of: - excited states - (supra)molecular photocalysts - oxide photocatalysts Mechanistic studies Electrochemistry Spectroelectrochemistry in situ surface studies Biophysics the JH Institute is ready to contribute to AMPEA Artificial Photosynthesis through all three sub-programmes H 2 O oxidation, H 2 O, CO 2 reduction Light harvesting Photo-charge separation Semiconductor systems Molecular photo/electro catalysis Nature-guided protein photocatalysis

11 The institute contributes to establishing the European Research Area Its research scientists are actively involved in European multilateral research projects: Running COST European collaborations relevant to AMPEA: CM1202 "Supramolecular photocatalytic water splitting" (PERSPECT-H2O), CM1104 "Reducible oxide chemistry, structure and functions" CM1405 "Molecules in motion (MOLIM)"