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The research of Hensen focuses on the fundamental and applied aspects of catalyzed reactions relevant to clean and sustainable processes for the production of fuels and chemicals with the aim to identify active sites and understand reaction mechanism. The working approach is to apply advanced (in-situ) characterization methods on as realistic as possible model systems combined with theoretical modeling (DFT, microkinetics) and performance testing (kinetics, high-throughput methods, transient techniques) to guide the design and synthesis of nanoscopically organized and chemically functionalized catalytic solid materials. The materials explored include primarily highly structured microporous and mesoporous materials containing reactive centers such as protons, metal ions and metal, metal oxide and metal sulfides clusters. Applications are directed towards the improvement of current industrial chemical processes and novel processes based on renewable feedstock such as biomass. Catalytic target reactions are methane activation, Fischer-Tropsch catalysis, environmental catalysis, zeolite catalysis, conversion of biogenic molecules such as sugars and lignin, metal-support cooperativity in selective oxidation, CO2 reduction and photocatalysis.
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Zhicheng Luo,Chong Liu, Alexandra Radu, Davey F. de Waard,Yun Wang, Jean T. Behaghel de Bueren,Panos D. Kouris,Michael D. Boot,Jun Xiao,Huiyan Zhang,Rui Xiao,Jeremy S. Luterbacher,
Nature Chemical Engineeringno. 1 (2024): 61-72
JOURNAL OF PHYSICAL CHEMISTRY Cno. 41 (2023): 20314-20324
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Journal of CO2 Utilization (2023): 102604
JOURNAL OF THE AMERICAN CHEMICAL SOCIETYno. 37 (2023): 20289-20301
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