Günther Rupprechter

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http://www.imc.tuwien.ac.at/staff/pers_rupprechter_e.php

Articles in Scholarly Journals [Incomplete List]

  1. The mechanism of carbonate formation on Pd–Al2O3 catalysts
    Chemical Communications, no. 3, p. 320, 2008
  2. Comparison of the reactivity of different Pd?O species in CO oxidation
    Physical Chemistry Chemical Physics, vol. 9, no. 4, p. 533, 2007
  3. Adsorption and reaction of methanol on supported palladium catalysts: microscopic-level studies from ultrahigh vacuum to ambient pressure conditions
    Physical Chemistry Chemical Physics, vol. 9, no. 27, p. 3541, 2007
  4. A surface science approach to ambient pressure catalytic reactions
    Catalysis Today, vol. 126, no. 1-2, pp. 3–17, 2007
  5. Mind the gap! Spectroscopy of catalytically active phases
    Nano Today, vol. 2, no. 4, pp. 20–29, 2007
  6. Deactivation of Pd particles supported on Nb2O5/Cu3Au(100): SFG and TPD studies from UHV to 100mbar
    Surface Science, vol. 600, no. 4, pp. 963–970, 2006
  7. Hydrogen-induced metal-oxide interaction studied on noble metal model catalysts
    Reaction Kinetics and Catalysis Letters, vol. 87, no. 2, pp. 215–234, 2006
  8. Atmospheric pressure studies of selective 1,3-butadiene hydrogenation on well-defined Pd/Al2O3/NiAl(110) model catalysts: Effect of Pd particle size
    Journal of Catalysis, vol. 240, no. 1, pp. 58–65, 2006
  9. Erratum: “The application of infrared spectroscopy to probe the surface morphology of alumina-supported palladium catalysts” [J. Chem. Phys. 123, 174706 (2005)]
    The Journal of Chemical Physics, vol. 124, no. 6, p. 069901, 2006
  10. From Pd nanoparticles to single crystals: 1,3-butadiene hydrogenation on well-defined model catalysts
    Chemical Communications, no. 1, p. 80, 2006
  11. A model high surface area alumina-supported palladium catalyst
    Physical Chemistry Chemical Physics, vol. 7, no. 4, p. 565, 2005
  12. The Journal of Physical Chemistry B, vol. 109, no. 38, pp. 17791–17794, 2005
  13. The application of infrared spectroscopy to probe the surface morphology of alumina-supported palladium catalysts
    The Journal of Chemical Physics, vol. 123, no. 17, p. 174706, 2005
  14. Light emission spectroscopy of self-assembled arrays of silver nano-crystals with the STM
    Chemical Physics Letters, vol. 413, no. 1-3, pp. 10–15, 2005
  15. Interpreting intensities in vibrational sum frequency generation (SFG) spectroscopy: CO adsorption on Pd surfaces
    Surface Science, vol. 586, no. 1-3, pp. 146–156, 2005
  16. Finite size effects on supported Pd nanoparticles: Interaction of hydrogen with CO and CH
    Surface Science, vol. 588, no. 1-3, pp. L209–L219, 2005
  17. Atmospheric pressure studies of selective 1,3-butadiene hydrogenation on Pd single crystals: effect of CO addition
    Journal of Catalysis, vol. 235, no. 1, pp. 52–59, 2005
  18. Surface reactivity of Pd nanoparticles supported on polycrystalline substrates as compared to thin film model catalysts: infrared study of CH3OH adsorption
    Journal of Catalysis, vol. 223, no. 1, pp. 64–73, 2004
  19. Sum frequency generation and density functional studies of CO–H interaction and hydrogen bulk dissolution on Pd(111)
    Surface Science, vol. 554, no. 1, pp. 43–59, 2004
  20. The influence of surface defects on methanol decomposition on Pd(111) studied by XPS and PM-IRAS
    Surface Science, vol. 566-568, pp. 740–745, 2004
  21. C?O bond scission on ?defect-rich and perfect? Pd(111)?
    Surface Science, vol. 566-568, pp. 1024–1029, 2004
  22. CO dissociation and CO hydrogenation on smooth and ion-bombarded Pd(111): SFG and XPS spectroscopy at mbar pressures
    Applied Surface Science, vol. 235, no. 1-2, pp. 26–31, 2004
  23. The Journal of Physical Chemistry B, vol. 108, no. 11, pp. 3603–3613, 2004
  24. The Journal of Physical Chemistry B, vol. 108, no. 34, pp. 12955–12961, 2004
  25. 8??Surface vibrational spectroscopy on noble metal catalysts from ultrahigh vacuum to atmospheric pressure
    Annual Reports Section "C" (Physical Chemistry), vol. 100, p. 237, 2004
  26. Regular Alumina-Supported Nanoparticles of Iridium, Rhodium and Platinum Under Hydrogen Reduction: Structure, Morphology and Activity in the Neopentane Conversion
    Catalysis Letters, vol. 92, no. 1/2, pp. 1–9, 2004
  27. Ultrahigh vacuum and high-pressure coadsorption of CO and H[sub 2] on Pd(111): A combined SFG, TDS, and LEED study
    The Journal of Chemical Physics, vol. 119, no. 20, p. 10853, 2003
  28. Ultra-thin zeolite films prepared by spin-coating Silicalite-1 precursor solutions
    Chemical Physics Letters, vol. 382, no. 3-4, pp. 404–409, 2003
  29. SiO2-supported Pt particles studied by electron microscopy
    Materials Chemistry and Physics, vol. 81, no. 2-3, pp. 341–344, 2003
  30. The Journal of Physical Chemistry B, vol. 107, no. 15, pp. 3522–3527, 2003
  31. The Journal of Physical Chemistry B, vol. 107, no. 1, pp. 255–264, 2003
  32. The molecular orientation of CO on Pd(111): a polarization-dependent SFG study
    Chemical Physics Letters, vol. 367, no. 5-6, pp. 785–790, 2003
  33. Preparation and characterization of model catalysts: from ultrahigh vacuum to in situ conditions at the atomic dimension
    Journal of Catalysis, vol. 216, no. 1-2, pp. 223–235, 2003
  34. Silicide formation on a Pt/SiO2 model catalyst studied by TEM, EELS, and EDXS
    Journal of Catalysis, vol. 219, no. 2, pp. 434–441, 2003
  35. SFG spectroscopy from 10-8 to 1000 mbar: less-ordered CO structures and coadsorption on Pd(1 1 1)
    Surface Science, vol. 532-535, pp. 103–107, 2003
  36. Platinum nanocrystals supported by silica, alumina and ceria: metal–support interaction due to high-temperature reduction in hydrogen
    Surface Science, vol. 532-535, pp. 276–280, 2003
  37. Pt/ceria thin film model catalysts after high-temperature reduction: a (HR)TEM study
    Vacuum, vol. 71, no. 1-2, pp. 71–76, 2003
  38. Extending UHV studies to the mbar range: vibrational SFG spectroscopy of high-pressure CO adsorption on Pt(111) and Pd(111)
    Vacuum, vol. 71, no. 1-2, pp. 83–87, 2003
  39. Sum frequency generation vibrational spectroscopy at solid–gas interfaces: CO adsorption on Pd model catalysts at ambient pressure
    Surface Science, vol. 502-503, pp. 109–122, 2002
  40. Model in Heterogeneous Catalysis: Surface Science Quo Vadis?
    physica status solidi (a), vol. 187, no. 1, pp. 257–274, 2001
  41. Sum Frequency Generation Study of CO Adsorption on Palladium Model Catalysts
    physica status solidi (a), vol. 188, no. 4, pp. 1495–1503, 2001
  42. Ultrahigh vacuum high-pressure reaction system for 2-infrared 1-visible sum frequency generation studies
    Review of Scientific Instruments, vol. 72, no. 3, p. 1806, 2001
  43. Surface vibrational spectroscopy from ultrahigh vacuum to atmospheric pressure: adsorption and reactions on single crystals and nanoparticle model catalysts monitored by sum frequency generation spectroscopy
    Physical Chemistry Chemical Physics, vol. 3, no. 21, pp. 4621–4632, 2001
  44. Topics in Catalysis, vol. 15, no. 2/4, pp. 201–209, 2001
  45. Topics in Catalysis, vol. 15, no. 1, pp. 19–26, 2001
  46. Topics in Catalysis, vol. 13, no. 1/2, pp. 55–66, 2000
  47. Topics in Catalysis, vol. 14, no. 1/4, pp. 3–14, 2000
  48. Complex model catalysts under UHV and high pressure conditions: CO adsorption and oxidation on alumina-supported Pd particles
    Journal of Molecular Catalysis A: Chemical, vol. 162, no. 1-2, pp. 51–66, 2000
  49. Topics in Catalysis, vol. 10, no. 1/2, pp. 107–113, 2000
  50. Bridging the Pressure and Materials Gaps: High Pressure Sum Frequency Generation Study on Supported Pd Nanoparticles
    Physical Review Letters, vol. 85, no. 4, pp. 776–779, 2000
  51. The Journal of Physical Chemistry B, vol. 104, no. 31, pp. 7286–7292, 2000
  52. Nanostructural evolution of high loading Rh/lanthana catalysts through the preparation and reduction steps
    Catalysis Today, vol. 52, no. 1, pp. 29–43, 1999
  53. Structure–Activity Correlations on Rh/Al2O3 and Rh/TiO2 Thin Film Model Catalysts after Oxidation and Reduction
    Journal of Catalysis, vol. 186, no. 1, pp. 201–213, 1999
  54. The Journal of Physical Chemistry B, vol. 103, no. 10, pp. 1623–1638, 1999
  55. The Journal of Physical Chemistry B, vol. 101, no. 48, pp. 9973–9977, 1997
  56. Catalysis Letters, vol. 48, no. 1/2, pp. 17–20, 1997
  57. Characterization of oxide supported rhodium nanocrystals: habit, surface structure and catalytic activity
    Nanostructured Materials, vol. 9, no. 1-8, pp. 311–314, 1997
  58. Microstructural study of epitaxially grown rhodium model catalyst particles
    Vacuum, vol. 46, no. 8-10, pp. 1035–1040, 1995
  59. Epitaxial noble metal particles upon oxidation and reduction. A model system for supported metal catalysts
    Physica Status Solidi (a), vol. 146, no. 1, pp. 449–459, 1994