Project description
A European training network of catalytic importance
Catalysis research is dedicated to further understanding and optimising existing catalysts, and to designing new tailor-made, affordable materials with a focus on high activity and high selectivity. Funded by the Marie Skłodowska-Curie programme, the CATCHY project is a European training network that will offer young scientists training in the nanocatalysis field and facilitate knowledge transfer via secondments between academia and industry. The project will tailor new high-performance thermo- and electrocatalysts for CO2 conversion into added-value synthetic fuels. Work activities will include the production of bimetallic gas phase clusters; extensive characterisation of their morphology and atomic structure; fundamental reactivity studies; and thermo- and electrocatalytic laboratory tests. In addition, a prototype of the most promising electrocatalyst will be tested under realistic operative conditions in a gas diffusion electrode.
Objective
The European Training Network CATCHY provides a concerted effort to design novel high-performance thermo- and electrocatalysts for the conversion of CO2 into added-value synthetic fuels, while delivering a unique range of training opportunities providing young researchers with the expertise and skills required by employers in nanotechnology.
Catalysis research is dedicated to the understanding and optimization of existing catalysts and the tailor-made design of new materials with a focus on high-activity, high-selectivity, and economic feasibility. CATCHY will tailor new high performance CO2 conversion catalysts by a new multidisciplinary catalysis-by-design approach combining: i. production of bimetallic gas phase clusters of controlled homogeneity mixing transition, noble, and post-transition metals and deposition on various supports; ii. extensive characterization of their morphology (ex situ and in situ) ; iii. fundamental experimental and theoretical reactivity studies; and iv. (electro)catalytic laboratory tests. A prototype of the most promising electrocatalyst will be tested under realistic operative conditions.
CATCHY offers an interactive training approach combining new capabilities for the fabrication and characterization of cluster-based nanostructured surfaces to produce innovative applications. A complementary academic and industrial environment ensures an intersectorial training programme. Industry oriented training will be provided by focusing on selected catalysis applications directly related to energy and climate change issues of paramount importance to the EU and the world. The balanced program combines local expert training by academia and industrial partners, a network-wide secondment scheme, and network-wide training. The societal and environmental urgency to mitigate adverse climate change effects in the coming decades, and the particular advanced catalyst design approach, will guarantee the employability of CATCHY’s young researchers.
Fields of science
- natural scienceschemical sciencescatalysiselectrocatalysis
- engineering and technologynanotechnology
- engineering and technologyenvironmental engineeringenergy and fuelssynthetic fuels
- natural scienceschemical sciencesinorganic chemistrypost-transition metals
- natural sciencesearth and related environmental sciencesatmospheric sciencesclimatologyclimatic changes
Programme(s)
Coordinator
3000 Leuven
Belgium