Publikationen von Igor Kasatkin
Alle Typen
Zeitschriftenartikel (28)
1.
Zeitschriftenartikel
148 (10), S. 3062 - 3071 (2018)
Impregnated and Co-precipitated Pd–Ga2O3, Pd–In2O3 and Pd–Ga2O3–In2O3 Catalysts: Influence of the Microstructure on the CO2 Selectivity in Methanol Steam Reforming. Catalysis Letters 2.
Zeitschriftenartikel
502, S. 262 - 270 (2015)
Kinetics of deactivation on Cu/ZnO/Al2O3 methanol synthesis catalysts. Applied Catalysis A 3.
Zeitschriftenartikel
246, S. 92 - 100 (2015)
Ternary and quaternary Cr or Ga-containing ex-LDH catalysts—Influence of the additional oxides onto the microstructure and activity of Cu/ZnAl2O4 catalysts. Catalysis Today 4.
Zeitschriftenartikel
53 (27), S. 7043 - 7047 (2014)
Counting of Oxygen Defects versus Metal Surface Sites in Methanol Synthesis Catalysts by Different Probe Molecules. Angewandte Chemie International Edition 5.
Zeitschriftenartikel
126 (27), S. 7163 - 7167 (2014)
Counting of Oxygen Defects versus Metal Surface Sites in Methanol Synthesis Catalysts by Different Probe Molecules. Angewandte Chemie 6.
Zeitschriftenartikel
4 (5), S. 2048 - 2059 (2014)
Dynamic Surface Processes of Nanostructured Pd2Ga Catalysts Derived from Hydrotalcite-Like Precursors. ACS Catalysis 7.
Zeitschriftenartikel
20 (13), S. 3782 - 3792 (2014)
Cu-Based Catalyst Resulting from a Cu,Zn,Al Hydrotalcite-Like Compound: A Microstructural, Thermoanalytical, and In Situ XAS Study. Chemistry - A European Journal 8.
Zeitschriftenartikel
57 (1-4), S. 188 - 206 (2014)
Microstructural and Defect Analysis of Metal Nanoparticles in Functional Catalysts by Diffraction and Electron Microscopy: The Cu/ZnO Catalyst for Methanol Synthesis. Topics in Catalysis 9.
Zeitschriftenartikel
309, S. 221 - 230 (2014)
Surface dynamics of the intermetallic catalyst Pd2Ga, Part II – Reactivity and stability in liquid-phase hydrogenation of phenylacetylene. Journal of Catalysis 10.
Zeitschriftenartikel
309, S. 209 - 220 (2014)
Surface dynamics of the intermetallic catalyst Pd2Ga, Part I – Structural stability in UHV and different gas atmospheres. Journal of Catalysis 11.
Zeitschriftenartikel
125 (19), S. 5271 - 5276 (2013)
In-situ-Untersuchung von katalytischen Prozessen bei industriell relevanten Drücken: Neutronenbeugung an einem Methanolsynthesekatalysator. Angewandte Chemie 12.
Zeitschriftenartikel
15 (5), S. 1374 - 1381 (2013)
The effect of Al-doping on ZnO nanoparticles applied as catalyst support. Physical Chemistry Chemical Physics 13.
Zeitschriftenartikel
52 (19), S. 5166 - 5170 (2013)
In Situ Study of Catalytic Processes: Neutron Diffraction of a Methanol Synthesis Catalyst at Industrially Relevant Pressure. Angewandte Chemie International Edition 14.
Zeitschriftenartikel
293, S. 27 - 38 (2012)
Comparative study of hydrotalcite-derived supported Pd2Ga and PdZn intermetallic nanoparticles as methanol synthesis and methanol steam reforming catalysts. Journal of Catalysis 15.
Zeitschriftenartikel
336 (6083), S. 893 - 897 (2012)
The Active Site of Methanol Synthesis over Cu/ZnO/Al2O3 Industrial Catalysts. Science 16.
Zeitschriftenartikel
4 (6), S. 2018 - 2028 (2012)
Microwave-hydrothermal synthesis and characterization of nanostructured copper substituted ZnM2O4 (M = Al, Ga) spinels as precursors for thermally stable Cu catalysts. Nanoscale 17.
Zeitschriftenartikel
340 (1), 012053 (2012)
Heterogeneous Catalysis under pressure - In-situ neutron diffraction under industrial conditions. Journal of Physics: Conference Series 18.
Zeitschriftenartikel
47 (6), S. 1701 - 1703 (2011)
Knowledge-based development of a nitrate-free synthesis route for Cu/ZnO methanol synthesis catalysts via formate precursors. Chemical Communications 19.
Zeitschriftenartikel
115, S. 1368 - 1374 (2011)
The Intermetallic Compound Pd2Ga as Selective Catalyst for the Semi-Hydrogenation of Acetylene: From Model to High Performance Systems. Journal of Physical Chemistry C 20.
Zeitschriftenartikel
2 (7), S. 816 - 818 (2010)
The Potential of Microstructural Optimization in Metal/Oxide Catalysts: Higher Intrinsic Activity of Copper by Partial Embedding of Copper Nanoparticles. ChemCatChem