10.1021/om0608197.s001
Isaac Vidal
Isaac
Vidal
Santiago Melchor
Santiago
Melchor
Ibón Alkorta
Ibón
Alkorta
José Elguero
José
Elguero
Markku R. Sundberg
Markku R.
Sundberg
José A. Dobado
José A.
Dobado
On the Existence of α-Agostic Bonds: Bonding Analyses of
Titanium Alkyl Complexes
American Chemical Society
2006
electron density
metal center
electron localization function
quantum theory
ELF
titanium complexes
molecule
metal core
Titanium Alkyl ComplexesThe
agostic bond
alkylidene group
side effect
QTAIM
C atoms
2006-11-06 00:00:00
Journal contribution
https://acs.figshare.com/articles/journal_contribution/On_the_Existence_of_Agostic_Bonds_Bonding_Analyses_of_Titanium_Alkyl_Complexes/3049765
The main characteristics of the so-called “agostic bonding” in titanium complexes were computationally
investigated in terms of diverse analyses, including the quantum theory of atoms in molecules (QTAIM)
and the electron localization function (ELF). Computations on a set of titanium-based molecular models
that were presumably able to present α- and β-like bonding showed a clear distinction between α- and
β-bonding schemes. In view of the geometric, energetic, and electronic data of these molecules, we
concluded that the geometries presenting a Ti···H approximation similar to α bonding are not the result
of a bonding attraction. On the contrary, their origin arises from a short-range repulsion between the
metal core and the lone pairs of the alkylidene group, the latter pivoting in its own plane around carbon
and thereby allowing simultaneously a closer approach between the Ti and the C atoms and indirectly
resulting in a short Ti···H distance. Additionally, we found that the electronic and geometric distortion
of the C−H bond present in the agostic bonding are not univocally linked to this kind of bonding; instead,
this originates in the close distance of the C−H bond and any metal center, independently of whether it
is due to an agostic bond or not. Therefore, the lengthening of the C−H bond and the reduction of its
electron density at the bond critical point should not be considered as indication of agostic bonding but
as a side effect.