The impact of this project is clear given the successful publications in high quality journals, as first author: ACS Catalysis (IF: 12,2), and ChemCatChem (IF: 4.7) (under review, revision request received). The first one is available in open access (repository Lirias) and the second one will be as soon as it is accepted. Another important impact of this project in the researcher career primarily consists of training through research in a team-work environment that has foster the social competence including (self-) management and leadership. In particular the communication and leadership skills have been enhanced as well as participation at meetings and oral presentations at international conferences of the highest quality in chemistry, and inspire students and encourage other researchers with their career through internet dissemination tools, such as the research group website, researchgate or twitter (@ZEOCO2), but also in events organized by the University of Leuven, Pint of Science, etc., in addition to supervise, support and develop undergraduate and PhD students from KU-Leuven, the bioengineering department and visiting students from other institutes or universities. The Fellowship has enhanced the researcher’s ability to obtain and manage funding, being awarded a University of Valencia with one of the most competitive postdoctoral research contract (Juan de la Cierva call-2018). Beside the obtention of funding, the MSCA-IF has helped the researcher with the research prizes, such as the international Borealis Innovation Award for recently PhD graduated researchers (2019), Best PhD thesis on chemistry developed at Technical University of Valencia (2018), finalist of the international Umicore Materials Award (2018) and best poster contribution award of the Dutch Zeolite Association meeting. The work carried out enhances innovation capacity, create perspectives for new hybrid catalyst technology with potential market opportunities and address industrial needs in the petrochemical / CO2 / fine chemical sector. In particular, the new synthetic methodologies of active catalyst and their application in the CO2 valorization, contribute towards European policy objectives (e.g. green synthesis of polymer precursors, bulk chemicals, sustainable use of resources, etc.) by ensuring an efficient transfer of knowledge between academy and industry, the enhancement of European leadership in materials chemistry and petrochemical production, and the acceleration of the implementation of these materials and processes in Europe and in the world.