Clusters, surfaces, and catalysis
Open Access
- 11 July 2006
- journal article
- review article
- Published by Proceedings of the National Academy of Sciences in Proceedings of the National Academy of Sciences
- Vol. 103 (28) , 10577-10583
- https://doi.org/10.1073/pnas.0507691103
Abstract
The surface science of heterogeneous metal catalysis uses model systems ranging from single crystals to monodispersed nanoparticles in the 1–10 nm range. Molecular studies reveal that bond activation (C–H, H–H, C–C, C O) occurs at 300 K or below as the active metal sites simultaneously restructure. The strongly adsorbed molecules must be mobile to free up these sites for continued turnover of reaction. Oxide–metal interfaces are also active for catalytic turnover. Examples using C–H and C O activation are described to demonstrate these properties. Future directions include synthesis, characterization, and reaction studies with 2D and 3D monodispersed metal nanoclusters to obtain 100% selectivity in multipath reactions. Investigations of the unique structural, dynamic, and electronic properties of nanoparticles are likely to have major impact in surface technologies. The fields of heterogeneous, enzyme, and homogeneous catalysis are likely to merge for the benefit of all three.Keywords
This publication has 57 references indexed in Scilit:
- Active sites and states in the heterogeneous catalysis of carbon–hydrogen bondsPhilosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 2005
- Fabrication of platinum nanoparticles and nanowires by electron beam lithography (EBL) and nanoimprint lithography (NIL): comparison of ethylene hydrogenation kineticsCatalysis Letters, 2005
- Encapsulation of Metal (Au, Ag, Pt) Nanoparticles into the Mesoporous SBA-15 StructureLangmuir, 2003
- Ethylene Hydrogenation over Platinum Nanoparticle Array Model Catalysts Fabricated by Electron Beam Lithography: Determination of Active Metal Surface AreaThe Journal of Physical Chemistry B, 2002
- Hydrogenation and Dehydrogenation of Propylene on Pt(111) Studied by Sum Frequency Generation from UHV to Atmospheric PressureThe Journal of Physical Chemistry, 1996
- The hydrogenation and dehydrogenation of isobutene on Pt(111) monitored by IR–visible sum frequency generation and gas chromotographyJournal of the Chemical Society, Faraday Transactions, 1996
- Molecular Modeling of Ethylidyne Adsorption and Diffusion on Pt(111)Langmuir, 1996
- Decomposition of cyclohexene on platinum (111): a BPTDS and HREELS studyThe Journal of Physical Chemistry, 1992
- An electron energy-loss spectroscopy study analysis of the surface species formed during ethylene hydrogenation on Pt(111)Journal of Vacuum Science & Technology A, 1991
- Ethylene adsorption and decomposition on (2 .times. 1) platinum(110)The Journal of Physical Chemistry, 1990