Structural and spectroscopic comparisons in two series of cobalt(III)-monodentate phosphine complexes: trans-[Co(acac)(2)(PMe3-nPhn)(H2O)]PF6 and trans-[Co(acac)(2)(PMe3-nPhn)(2)]PF6 (acac = pentane-2,4-dionate; n=0, 1, 2 and 3)
T. Suzuki et al., Structural and spectroscopic comparisons in two series of cobalt(III)-monodentate phosphine complexes: trans-[Co(acac)(2)(PMe3-nPhn)(H2O)]PF6 and trans-[Co(acac)(2)(PMe3-nPhn)(2)]PF6 (acac = pentane-2,4-dionate; n=0, 1, 2 and 3), INORG CHIM, 298(2), 2000, pp. 131-140
The X-ray crystal structures and spectroscopic properties of two series of
cobalt(III)-monodentate phosphine complexes, trans -[Co(acac)(2)(PMe,Ph-3-n
(n))(H2O)]PF6 (na) and trans-[Co(acac)(2)(PMe3-nPhn)(2)]PF6 (nb), have been
compared in variation of methyl/phenyl substituents of phosphines. The Co-
P bond lengths in complexes nb are found to be remarkably longer (> 0.095 A
ngstrom) than those in the corresponding complexes na. Complex trans-[Co(ac
ac)(2)(PPh3)(H2O)]PF6 (3a) shows an unusually long Co-P bond (2.243(1) Angs
trom) and an anomalous distortion of the equatorial acac planes, owing to a
severe steric interaction associated with three phenyl rings of PPh3. It a
ppears that the PPh3 in 3a is bound more closely to cobalt(III) in solution
than in the solid state, as suggested by comparison of the absorption spec
tra of the solution and the solid. The ligand spectral parameters of phosph
ines, d(Co)(PMe3-nPhn), are estimated by using the energy of the a(1)E(g) <
-- (1)A(1g) transition, which is observed as an absorption band for complex
es na or a broad shoulder for complexes nb, and evaluated in relation to th
e Co-59 NMR chemical shifts. The estimated d(Co)(PMe3-nPhn) values indicate
that the ligand-field strengths of the phosphines become considerably redu
ced as the number of phenyl substituents increases. Also, the ligand-field
strengths of the phosphines in complexes nb are smaller than those in the c
orresponding complexes na. Furthermore, the low-lying (18500-25000 cm(-1))
LMCT band of complexes nb can be explained by the estimated parameters. (C)
2000 Elsevier Science S.A. All rights reserved.