Transition metal clusters and supported species with metal-carbon bonds from first-principles quantum chemistry

Konstantin M. Neyman, Georgi N. Vayssilov, Notker Rösch

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25 Scopus citations

Abstract

The impact of density functional calculations for understanding the organometallic chemistry of transition metal surface complexes and clusters, relevant mainly to heterogeneous catalysis, is illustrated by case studies of supported carbonyl complexes and clusters exhibiting chemical bonds with CO or atomic carbon. We discuss the impact of density functional electronic structure calculations for understanding the organometallic chemistry of transition metal (TM) surface complexes and clusters. Examples will cover three types of systems, mainly of interest in the context of heterogeneous catalysis: (i) supported carbonyl complexes of rhenium on MgO and of rhodium in zeolites, (ii) TM clusters with CO ligands and adsorbates, and (iii) metal clusters exhibiting chemical bonds with atomic carbon. The first group of case studies promotes the concept that surface groups of oxide supports are bonded to TM complexes in the same way as common (poly-dentate) ligands are bonded in coordination compounds. The second group of examples demonstrates various "ligand effects" of TM clusters. Finally, we illustrate how carbido centers stabilize TM clusters and modify the propensity for adsorption at the surface of such clusters.

Original languageEnglish
Pages (from-to)4384-4394
Number of pages11
JournalJournal of Organometallic Chemistry
Volume689
Issue number24 SPEC. ISS.
DOIs
StatePublished - 29 Nov 2004

Keywords

  • Density functional calculations
  • Heterogenous catalysis
  • Metal-carbon bonds
  • Transition metal clusters
  • Transition metal complexes

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