Phm. Budzelaar et al., Metal-to-ligand electron transfer in diiminopyridine complexes of Mn-Zn. Atheoretical study, INORG CHEM, 40(18), 2001, pp. 4649-4655
A series of complexes ML2x+ (M = Mn-Zn, L = 2,6-bis(iminomethyl)pyridine) w
as investigated by theoretical methods. Electron transfer from the metal "t
(2g)" orbitals to the ligand pi* orbitals is reflected in the elongation of
ligand C-N bonds and shortening of the C-py-C-imine bonds. Using zinc comp
lexes as references, these deformations could be used to quantify the numbe
r of electrons transferred. Strong transfer is found in low-spin MnL2+ (ca.
2 e) and in high-spin MnL2+ and low-spin MnL22+, FeL22+, and CoL2+ (ca. 1
e each). Smaller transfer is found in CoL22+ and the transfer is insignific
ant in high, MnL22+,Nil(2)(2+) and CuL22+. Analysis of the impaired electro
n density on the metal (using the Staroverov-Davidson method) shows that th
e contribution of a biradical description, in which ligand radical anions a
re antiferromagnetically coupled to the metal center, is significant in mos
t cases. In the case of CoL2+ and high-spin MnL2+, where the metal-ligand b
ond is weakened, it amounts to over 50% of the total transfer.