Surface organometallic chemistry: some fundamental features including the coordination effects of the support

Citation
Jm. Basset et al., Surface organometallic chemistry: some fundamental features including the coordination effects of the support, COORD CH RE, 180, 1998, pp. 1703-1723
Citations number
52
Categorie Soggetti
Inorganic & Nuclear Chemistry
Journal title
COORDINATION CHEMISTRY REVIEWS
ISSN journal
00108545 → ACNP
Volume
180
Year of publication
1998
Part
2
Pages
1703 - 1723
Database
ISI
SICI code
0010-8545(199812)180:<1703:SOCSFF>2.0.ZU;2-7
Abstract
The study of the various kinds of reactions between organometallic complexe s and the surfaces of inorganic oxides, metals or zeolites constitutes a ne w aspect of the coordination chemistry on surfaces. In this non-exhaustive and short review article, we would like to try to answer a few questions re garding this area of coordination (or organometallic chemistry) which may h ave some future impact in the held of catalysis. The questions that we woul d like to answer are the following: Are the basic rules of molecular organometallic and coordination chemistry valid when one tries to apply them to surfaces? One can wonder whether or n ot the functionalities which are present at the surface of an oxide, MxOy ( M-OH groups, strained M-O-M groups and M=O, aso) have a chemical reactivity which can be predicted on the basis of molecular chemistry. A few selected examples will be given about the reactivity of tin, rhenium or zirconium a lkyls with the silanol groups of partially dehydroxylated silica. Can we obtain reliable and precise informations when some selected tools of surface science and molecular organometallic chemistry are applied simulta neously to elucidate the structure of surface organometallic fragments? One can reasonably expect that the way the surface organometallic fragments co ordinate to the surface can be rationalized on the simple rules of coordina tion chemistry (electron counting, formal oxidation state). A few examples will be given regarding the surface structure of silica-supported zirconium hydrides or rhodium allyls. Is it possible that a well chosen surface organometallic fragment represent s an intermediate in heterogeneous catalysis? If one can study the reactivi ty of a well chosen surface organometallic fragment, then one is in a posit ion to demonstrate some elementary steps of heterogeneous catalysis. In thi s review we shall consider the surface reactivity of supported rhodium ally ls or tin alkyls. What kind of mobility can we expect from surface organometallic fragments? In sharp contrast with discrete ligands of molecular chemistry, surfaces of oxides obviously provide a so called "pool of oxygens" which binds the sur face organometallic fragments in a localized manner. However, due to its al most infinite structure, such a "pool" is obviously responsible for surface mobility, which is also a key parameter in certain catalytic processes (si ntering, diffusion processes, reconstructions, leaching,). Examples will be given on the mobility of Rh-1(CO)(2) grafted onto a silica surface. The or ganometallic fragments are also mobile around the metal carbon bonds and th is phenomenon can be evidenced by solid-state nuclear magnetic resonance (N MR) and can have applications in molecular separations and on the reactivit y of the organometallic complexes. In each case, the role of the support as a coordinating ligand is a key factor of this chemistry. (C) 1998 Elsevier Science S.A. All rights reserved.