Daniela M. Farmer
YOU?
Author Swipe
View article: Following Cu Microstructure Evolution in CuZnO/Al<sub>2</sub>O<sub>3</sub>(−Cs) Catalysts During Activation in H<sub>2</sub> using in situ XRD and XRD‐CT
Following Cu Microstructure Evolution in CuZnO/Al<sub>2</sub>O<sub>3</sub>(−Cs) Catalysts During Activation in H<sub>2</sub> using in situ XRD and XRD‐CT Open
Invited for this month's cover is the group of Andrew M. Beale at the University College London and at the Research Complex at Harwell (UK). The cover picture demonstrates how X‐rays can be used to obtain spatially resolved chemical imagin…
View article: Cover Picture: Following Cu Microstructure Evolution in CuZnO/Al<sub>2</sub>O<sub>3</sub>(−Cs) Catalysts During Activation in H<sub>2</sub> using in situ XRD and XRD‐CT (Chem. Methods 1/2023)
Cover Picture: Following Cu Microstructure Evolution in CuZnO/Al<sub>2</sub>O<sub>3</sub>(−Cs) Catalysts During Activation in H<sub>2</sub> using in situ XRD and XRD‐CT (Chem. Methods 1/2023) Open
The Front Cover shows how X-rays can be used to obtain spatially resolved chemical imaging insight from within an industrial catalytic reactor. Understanding how the microstructure of the active Cu0 component in the commercially applicable…
View article: Following Cu Microstructure Evolution in CuZnO/Al<sub>2</sub>O<sub>3</sub>(−Cs) Catalysts During Activation in H<sub>2</sub> using in situ XRD and XRD‐CT
Following Cu Microstructure Evolution in CuZnO/Al<sub>2</sub>O<sub>3</sub>(−Cs) Catalysts During Activation in H<sub>2</sub> using in situ XRD and XRD‐CT Open
Understanding how the microstructure of the active Cu 0 component in the commercially applicable Cu/ZnO/Al 2 O 3 (−Cs 2 O) low‐temperature water‐gas shift catalyst evolves under various H 2 partial pressures in the presence/absence of a Cs…
View article: Identifying key mononuclear Fe species for low-temperature methane oxidation
Identifying key mononuclear Fe species for low-temperature methane oxidation Open
The monomeric Fe species in Fe/ZSM-5 have been identified as the intrinsic active sites for the low-temperature methane oxidation.