Comparisons between yttrium and titanium N-heterocyclic carbene complexes in the search for early transition metal NHC backbonding interactions

Polly L. Arnold, Sergey Zlatogorsky, Natalie A. Jones, Christopher D. Carmichael, Stephen T. Liddle, Alexander J. Blake, Claire Wilson

Research output: Contribution to journalArticlepeer-review

Abstract / Description of output

The d(0) yttrium N-heterocyclic carbene compound YL3 (L = OCMe2CH2[C{N(CHCH)NPr}]) has been made and structurally characterized. It adopts a mer configuration of the three bidentate ligands. A comparison of this with the isostructural d(1) titanium complex TiL3 is Made in order to seek experimental evidence of a pi-bonding contribution to the M-C bond. This has been augmented by DFT calculations. Experimentally, the metal radius-corrected Ti-C distance is shorter than the Y-C distance, suggesting a T-bonding contribution in the d(1) complex, but the computational data suggest that a shorter or bond might simply be formed by the more strongly polarizing titanium cation. From the potassium reduction of TiL(OPr')(3), only a byproduct arising from silicone grease activation was isolable, identified as a mixed-valent, multinuclear, d(0)/d(1) cluster [(TiL2)-L-III{Pr'OSiMe2O}K2OTiIV(OPr')(4)](2) in which the carbene ligands are bound to the Ti-III centers in preference to Ti-IV, with longer Ti-C distances than those found in TiL3.

Original languageEnglish
Pages (from-to)9042-9049
Number of pages8
JournalInorganic Chemistry
Volume47
Issue number19
DOIs
Publication statusPublished - 6 Oct 2008

Keywords / Materials (for Non-textual outputs)

  • PINCER DICARBENE COMPLEXES
  • EFFECTIVE CORE POTENTIALS
  • MOLECULAR CALCULATIONS
  • ELECTRONIC-STRUCTURE
  • BONDING INTERACTIONS
  • IONIC-RADII
  • LIGANDS
  • REACTIVITY
  • PALLADIUM
  • ZIRCONIUM

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