Quantification of the Influence of Surface Structure on C—H Bond Activation by Iridium and Platinum
- 2 July 1993
- journal article
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 261 (5117), 76-78
- https://doi.org/10.1126/science.261.5117.76
Abstract
The trapping-mediated dissociative chemisorption of ethane on the closest packed Ir(111) surface has been investigated, and the activation energy and preexponential factor of the surface reaction rate coefficient have been measured. These results are compared to those of ethane activation on Pt(111) and on the missing row reconstructed Ir(110)-(1x2) and Pt(110)-(1x2) surfaces, allowing a quantitative determination of the effect surface structure has on the catalytic activation of C—H bonds. In the order Pt(111), Pt(110)-(1x2), Ir(111), and Ir(110)-(1x2), the activation energies for the dissociative chemisorption of ethane are 16.6, 10.5, 10.3, and 5.5 kilocalories per mole, demonstrating that the electronic and geometric effects are of approximately equal importance for ethane activation on these catalysts.Keywords
This publication has 19 references indexed in Scilit:
- Alkane activation on transition-metal surfaces: beams, bulbs, and new insightsLangmuir, 1993
- X-ray absorption edge studies of the electronic structure of metal catalystsAccounts of Chemical Research, 1993
- Dissociative adsorption and hydrogenolysis of ethane over clean and nickel-covered platinum (111)The Journal of Physical Chemistry, 1990
- Kinetics of dissociative chemisorption of methane and ethane on Pt(110)-(1×2)Journal of Vacuum Science & Technology A, 1990
- Trapping-mediated dissociative chemisorption of ethane on Ir(110)-(1×2)The Journal of Chemical Physics, 1990
- Activation of methane dissociation on a Pt(111) surfaceThe Journal of Chemical Physics, 1989
- Role of Surface Temperature in the Precursor-Mediated Dissociative Chemisorption ofon W(100)Physical Review Letters, 1988
- Dynamics of the activated dissociative chemisorption of CH4 and implication for the pressure gap in catalysis: A molecular beam–high resolution electron energy loss studyThe Journal of Chemical Physics, 1987
- Adsorption and reaction of n-alkanes on the platinum(110)-(1 .times. 2) surfaceThe Journal of Physical Chemistry, 1985
- The reaction of saturated and unsaturated hydrocarbons with the (110)-(1×2) and (111) surfaces of iridiumThe Journal of Chemical Physics, 1984