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Quantum-Chemical Investigation of Methylcyclopentane Conversion on Mono- and Bimetallic (Promoted)/PtAl2O3 Catalysts

  • O. Mekenyan , D. Damyanov , L. Vlaev and N. Neshev
Published/Copyright: June 30, 1984
Zeitschrift für Physikalische Chemie
From the journal Zeitschrift für Physikalische Chemie Volume 142 Issue 1

Published Online: 1984-6-30
Published in Print: 1984-1-1

© R. Oldenbourg Verlag, München

Articles in the same Issue

  1. High-Pressure Effects in the Recombination Reaction CH3 + CH3 → C2H6
  2. Nitridation Mechanisms of Ti Alloys with Fe and Ru in Regard to the Formation of Segregation Catalysts
  3. Quantum-Chemical Investigation of Methylcyclopentane Conversion on Mono- and Bimetallic (Promoted)/PtAl2O3 Catalysts
  4. On the Rotational Correlation Function g2(t) of the Water Molecule in a Water—Dimethylsulfoxide Mixture
  5. The Hydration of F: An Explicit Demonstration of a Basic Discrepancy between NMR Results and those Obtained from Various Computations and Neutron Diffraction Experiments
  6. Calorimetric Study of the Protonation of Extremely Weak Organic Bases by Trifluoromethanesulfonic Acid in Tetrachloromethane*
  7. Molecular Thermodynamics of Evaporation of AlCl3-Containing Salts and Salt Melts
  8. Structure of Precipitation Membranes
https://doi.org/10.1524/zpch.1984.142.1.029

Articles in the same Issue

  1. High-Pressure Effects in the Recombination Reaction CH3 + CH3 → C2H6
  2. Nitridation Mechanisms of Ti Alloys with Fe and Ru in Regard to the Formation of Segregation Catalysts
  3. Quantum-Chemical Investigation of Methylcyclopentane Conversion on Mono- and Bimetallic (Promoted)/PtAl2O3 Catalysts
  4. On the Rotational Correlation Function g2(t) of the Water Molecule in a Water—Dimethylsulfoxide Mixture
  5. The Hydration of F: An Explicit Demonstration of a Basic Discrepancy between NMR Results and those Obtained from Various Computations and Neutron Diffraction Experiments
  6. Calorimetric Study of the Protonation of Extremely Weak Organic Bases by Trifluoromethanesulfonic Acid in Tetrachloromethane*
  7. Molecular Thermodynamics of Evaporation of AlCl3-Containing Salts and Salt Melts
  8. Structure of Precipitation Membranes
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