Advancing Critical Chemical Processes for a Sustainable Future: Challenges for 
Industry and the Max Planck–Cardiff Centre on the Fundamentals of Heterogeneous 
Catalysis (FUNCAT)

Bowker, Michael; DeBeer, Serena; Dummer, Nicholas F.; Hutchings, Graham J.; Scheffler, Matthias; Schüth, Ferdi; Taylor, Stuart H.; Tüysüz, Harun

doi:10.1002/anie.202209016

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Advancing Critical Chemical Processes for a Sustainable Future: Challenges for Industry and the Max Planck–Cardiff Centre on the Fundamentals of Heterogeneous Catalysis (FUNCAT)

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Schüth, Ferdi
Research Department Schüth, Max-Planck-Institut für Kohlenforschung, Max Planck Society;

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Tüysüz, Harun
Research Group Tüysüz, Max-Planck-Institut für Kohlenforschung, Max Planck Society;

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Citation

Bowker, M., DeBeer, S., Dummer, N. F., Hutchings, G. J., Scheffler, M., Schüth, F., et al. (2022). Advancing Critical Chemical Processes for a Sustainable Future: Challenges for Industry and the Max Planck–Cardiff Centre on the Fundamentals of Heterogeneous Catalysis (FUNCAT). Angewandte Chemie International Edition, 61(50): e202209016. doi:10.1002/anie.202209016.

Cite as: https://hdl.handle.net/21.11116/0000-000B-9B96-D

Abstract

Catalysis is involved in around 85 % of manufacturing industry and contributes an estimated 25 % to the global domestic product, with the majority of the processes relying on heterogeneous catalysis. Despite the importance in different global segments, the fundamental understanding of heterogeneously catalysed processes lags substantially behind that achieved in other fields. The newly established Max Planck–Cardiff Centre on the Fundamentals of Heterogeneous Catalysis (FUNCAT) targets innovative concepts that could contribute to the scientific developments needed in the research field to achieve net zero greenhouse gas emissions in the chemical industries. This Viewpoint Article presents some of our research activities and visions on the current and future challenges of heterogeneous catalysis regarding green industry and the circular economy by focusing explicitly on critical processes. Namely, hydrogen production, ammonia synthesis, and carbon dioxide reduction, along with new aspects of acetylene chemistry.