Add to ORKGthe pure Cu MTPs Cu-clusters prepared by means of the inert gas aggregation technique in the size range between 1 and 10 nm diameter have been studied with high resolution transmission electron microscopy (HRTEM) with respect to their structures and their reactivities with oxygen. The preparations were performed from a supersaturated metal-argon vapour. Also small amounts of oxygen were added during the nucleation process, i.e., 10-1-10-3 mbar partial pressures of pure O2. The clusters were deposited on amorphous carbon films of about 3 nm thickness and transferred under argon as protection gas into the Philips 200 kV CM200 FEG microscope in a transfer system which also served as reaction chamber. The results may be summerized as follows: P...
Cu-exchanged zeolites are known to be active in the selective oxidation of methane to methanol at mo...
The mechanism of the CO oxidation reaction catalysed by planar Cu5, three dimensional (3D) Cu5, and ...
Cu-oxo nanoclusters in Cu-exchanged zeolites oxidize methane to methanol via a three-step process. C...
the pure Cu MTPs Cu-clusters prepared by means of the inert gas aggregation technique in the size ra...
the pure Cu MTPs Cu-clusters prepared by means of the inert gas aggregation technique in the size ra...
Structure and reactivity with oxigen of Cu clusters in the size range of 4.5±2.5 nm created by the i...
The reactivity of Cu clusters with a mean particle size of 4.50 {+-} 1.25 nm was studied with respec...
Abstract. The reaction of oxygen with Cu cluster anions consisting of 6–11 atoms was studied by mean...
The reaction of oxygen with Cu cluster anions consisting of 6–11 atoms was studied by means of Time...
The partial oxidation of methane to methanol with molecular Oat mild reaction conditions is a challe...
The decomposition of copper formate clusters is investigated in the gas phase by infrared multiple p...
Nearly, all metals form spontaneously an oxygenated surface upon exposure to air. Here, we demonstra...
Copper oxide clusters, Cu<sub><i>n</i></sub>O<sub><i>m</i></sub><sup><i>+</i></sup> (<i>n</i> = 5–12...
With regard to different preparation techniques of inert gas aggregation for Cu and of aqueous chemi...
Extended X-ray absorption fine structure (EXAFS) measurements have been carried out to explore the s...
Cu-exchanged zeolites are known to be active in the selective oxidation of methane to methanol at mo...
The mechanism of the CO oxidation reaction catalysed by planar Cu5, three dimensional (3D) Cu5, and ...
Cu-oxo nanoclusters in Cu-exchanged zeolites oxidize methane to methanol via a three-step process. C...
the pure Cu MTPs Cu-clusters prepared by means of the inert gas aggregation technique in the size ra...
the pure Cu MTPs Cu-clusters prepared by means of the inert gas aggregation technique in the size ra...
Structure and reactivity with oxigen of Cu clusters in the size range of 4.5±2.5 nm created by the i...
The reactivity of Cu clusters with a mean particle size of 4.50 {+-} 1.25 nm was studied with respec...
Abstract. The reaction of oxygen with Cu cluster anions consisting of 6–11 atoms was studied by mean...
The reaction of oxygen with Cu cluster anions consisting of 6–11 atoms was studied by means of Time...
The partial oxidation of methane to methanol with molecular Oat mild reaction conditions is a challe...
The decomposition of copper formate clusters is investigated in the gas phase by infrared multiple p...
Nearly, all metals form spontaneously an oxygenated surface upon exposure to air. Here, we demonstra...
Copper oxide clusters, Cu<sub><i>n</i></sub>O<sub><i>m</i></sub><sup><i>+</i></sup> (<i>n</i> = 5–12...
With regard to different preparation techniques of inert gas aggregation for Cu and of aqueous chemi...
Extended X-ray absorption fine structure (EXAFS) measurements have been carried out to explore the s...
Cu-exchanged zeolites are known to be active in the selective oxidation of methane to methanol at mo...
The mechanism of the CO oxidation reaction catalysed by planar Cu5, three dimensional (3D) Cu5, and ...
Cu-oxo nanoclusters in Cu-exchanged zeolites oxidize methane to methanol via a three-step process. C...