Maximilian Lamoth
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View article: ChemiTEM – Transmission Electron Microscopy Optimized for Chemistry and Material Science
ChemiTEM – Transmission Electron Microscopy Optimized for Chemistry and Material Science Open
Invited for this month's cover is the group of Walid Hetaba and Thomas Lunkenbein at the Max‐Planck‐Institutes in Berlin and Mülheim (Germany). The cover picture shows the ChemiTEM acquisition workflow in a tablet app in front of a transmi…
View article: Cover Picture: ChemiTEM – Transmission Electron Microscopy Optimized for Chemistry and Material Science (Chemistry ‐ Methods 9/2021)
Cover Picture: ChemiTEM – Transmission Electron Microscopy Optimized for Chemistry and Material Science (Chemistry ‐ Methods 9/2021) Open
The Front Cover shows the ChemiTEM acquisition workflow in a tablet app in front of a transmission electron microscope (TEM). Additionally, the results obtained by a TEM-expert and by non-expert TEM users are shown left and right of the mi…
View article: ChemiTEM – Transmission Electron Microscopy Optimized for Chemistry and Material Science
ChemiTEM – Transmission Electron Microscopy Optimized for Chemistry and Material Science Open
Analytical transmission electron microscopy (TEM) has become a widely implemented part of the characterization workflow in material science. TEM is the key technique for the investigation of local composition, surfaces, and atomic interfac…
View article: Transition from 2D to 3D SBA‐15 by High‐Temperature Fluoride Addition and its Impact on the Surface Reactivity Probed by Isopropanol Conversion
Transition from 2D to 3D SBA‐15 by High‐Temperature Fluoride Addition and its Impact on the Surface Reactivity Probed by Isopropanol Conversion Open
A systematic variation of the SBA‐15 synthesis conditions and their impact on the structural and chemical characteristics are reported. An incremental alteration of the hydrothermal aging temperature and time was used to induce changes of …
View article: Cover Feature: Nanocatalysts Unravel the Selective State of Ag (ChemCatChem 11/2020)
Cover Feature: Nanocatalysts Unravel the Selective State of Ag (ChemCatChem 11/2020) Open
The Cover Feature shows an ensemble of Ag atoms differently enriched with oxygen for the ethylene epoxidation reaction. In their Full Paper, M. Lamoth et al. demonstrate that the oxygen concentration in/on Ag defines the selectivity of the…
View article: Nanocatalysts Unravel the Selective State of Ag
Nanocatalysts Unravel the Selective State of Ag Open
In the present work, we report on a comparative study of model catalysts during ethylene epoxidation reaction under industrially relevant conditions. The catalysts consist of Ag nanoparticles <6 nm and a reference sample ∼100 nm. Combining…
View article: Supported Ag Nanoparticles and Clusters for CO Oxidation: Size Effects and Influence of the Silver–Oxygen Interactions
Supported Ag Nanoparticles and Clusters for CO Oxidation: Size Effects and Influence of the Silver–Oxygen Interactions Open
Supported Ag catalysts on silica and corundum have been synthesized applying an improved impregnation technique. The resulting Ag particle sizes can be divided into three categories concerning: (I) bulk-like, (II) nanoparticles of 1-6 nm, …
View article: Correction to: The Role of Adsorbed and Subsurface Carbon Species for the Selective Alkyne Hydrogenation Over a Pd-Black Catalyst: An Operando Study of Bulk and Surface
Correction to: The Role of Adsorbed and Subsurface Carbon Species for the Selective Alkyne Hydrogenation Over a Pd-Black Catalyst: An Operando Study of Bulk and Surface Open
The original version of this article unfortunately contained an error. The authors would like to correct the error with this erratum. In Fig. 5 the process C and B were incorrectly labelled. The corrected Fig. 5 with the right labelling is…