000768163 001__ 768163
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000768163 0247_ $$2CORDIS$$aG:(EU-Grant)686053$$d686053
000768163 0247_ $$2CORDIS$$aG:(EU-Call)H2020-NMP-2015-two-stage$$dH2020-NMP-2015-two-stage
000768163 0247_ $$2originalID$$acorda__h2020::686053
000768163 035__ $$aG:(EU-Grant)686053
000768163 150__ $$aTowards Replacement of Critical Catalyst Materials by Improved Nanoparticle Control and Rational Design$$y2016-06-01 - 2019-05-31
000768163 371__ $$aAALTO KORKEAKOULUSAATIO SR$$bAALTO$$dFinland$$ehttp://www.aalto.fi$$vCORDIS
000768163 371__ $$aLABORATORIO IBERICO INTERNACIONAL DE NANOTECNOLOGIA$$bLIN INL$$dPortugal$$ehttp://www.inl.int$$vCORDIS
000768163 371__ $$aTETHIS SPA$$bTET$$dItaly$$ehttp://www.tethis-lab.com$$vCORDIS
000768163 371__ $$aForschungszentrum Jülich$$bForschungszentrum Jülich$$dGermany$$ehttps://www.ptj.de/$$vCORDIS
000768163 371__ $$aTTY-SAATIO$$bTAMPERE UNIVERSITY OF TECHNOLOGY$$dFinland$$ehttp://www.tut.fi$$vCORDIS
000768163 371__ $$aSwansea University$$bSwansea University$$dUnited Kingdom$$ehttp://www.swansea.ac.uk/$$vCORDIS
000768163 371__ $$aNPL MANAGEMENT LIMITED$$dUnited Kingdom$$ehttp://www.npl.co.uk$$vCORDIS
000768163 371__ $$aNANOLAYERS RESEARCH COMPUTING LTD$$bNANOLAYERS RESEARCH COMPUTING$$dUnited Kingdom$$ehttp://www.nanolayers.com$$vCORDIS
000768163 371__ $$aSYNGASCHEM BV$$bSyngaschem BV$$dNetherlands$$ehttp://www.syngaschem.com$$vCORDIS
000768163 371__ $$aTAMPEREEN KORKEAKOULUSAATIO SR$$bTAMPERE UNIVERSITY$$dFinland$$ehttps://www.tuni.fi/en$$vCORDIS
000768163 371__ $$aUniversity of Birmingham$$bUniversity of Birmingham$$dUnited Kingdom$$ehttp://www.birmingham.ac.uk/index.aspx$$vCORDIS
000768163 372__ $$aH2020-NMP-2015-two-stage$$s2016-06-01$$t2019-05-31
000768163 450__ $$aCritCat$$wd$$y2016-06-01 - 2019-05-31
000768163 5101_ $$0I:(DE-588b)5098525-5$$2CORDIS$$aEuropean Union
000768163 680__ $$aThe CritCat proposal aims to provide solutions for the substitution of critical metals, especially rare platinum group metals (PGMs), used in heterogeneous and electrochemical catalysis. CritCat will explore the properties of ultra-small transition metal (TM) nanoparticles in order achieve optimal catalytic performance with earth-abundant materials. The emphasis will be on industrially-relevant chemical reactions and emerging energy conversion technologies in which PGMs play an instrumental role, particularly in the context of hydrogen and synthesis gas (syngas) fuels. The CritCat proposal includes all the aspects for rational catalyst design including novel catalyst synthesis, characterization, and performance testing by a range of academic and industry partners together with large-scale computational simulations of the relevant catalysts, substrates and model reactions using the latest computational methods. Particular attention is given to a strong feedback-loop mechanism where theory is an integral part of the experimental work packages. The experimental and theoretical data will be collected (descriptor database) and used for materials screening via machine learning techniques and new algorithms. The goal is to improve size, shape and surface structure control of the tailored nanoparticle catalysts via novel cluster/nanoparticle synthesis techniques that can produce samples of unrivalled quality. The research includes up-scaling of the size-selected catalyst nanoparticle samples up to macroscopic quantities, which will enable them to be included as basic technological components for realistic catalyst systems. The performance of the catalyst prototypes will be demonstrated for selected basic electrochemical reactions relevant to fuel cells and storage of renewable energy. The industrial partners bring their expertise in prototypes development and commercial deployment (TRL 3-4). The project involves cooperation with external research groups in USA and Japan.
000768163 909CO $$ooai:juser.fz-juelich.de:768163$$pauthority$$pauthority:GRANT
000768163 970__ $$aoai:dnet:corda__h2020::593e6aebfed69c3699cb7b98aeebec94
000768163 980__ $$aG
000768163 980__ $$aCORDIS
000768163 980__ $$aAUTHORITY