The first neutral bis(metallylene)pyridine pincer-type [ENE] ligands (E = Si-II, Ge-II) were synthesized, and their coordination chemistry and reactivity toward iron was studied. First, the unprecedented four-coordinate complexes kappa E-2,E%26apos;-[ENE]FeCl2 were isolated. Unexpectedly and in contrast to other related pyridine-based pincer-type Fe(II) complexes, the N atom of pyridine is reluctant to coordinate to the Fe(II) site due to the enhanced sigma-donor strength of the E atoms, which disfavors this coordination mode. Subsequent reduction of kappa Si-2,Si%26apos;-[SiNSi]FeCl2 with KC8 in the presence of PMe3 or direct reaction of the [ENE] ligands using Fe(PMe3)4 produced the highly electron-rich iron(0) complexes [ENE]Fe(PMe3)(2). The reduction of the iron center substantially changes its coordination features, as shown by the results of a single-crystal X-ray diffraction analysis of [SiNSi]Fe(PMe3)(2). The iron center, in the latter, exhibits a pseudosquare pyramidal (PSQP) coordination environment, with a coordinative (pyridine)N?Fe bond, and a trimethylphosphine ligand occupying the apical position. This geometry is very unusual for Fe(0) low-spin complexes, and variable-temperature H-1 and P-31 NMR spectra of the [ENE]Fe(PMe3)(2) complexes revealed that they represent the first examples of configurationally stable PSQP-coordinated Fe(0) complexes: even after heating at 70 degrees C for %26gt;7 days, no changes are observed. The substitution reaction of [ENE]Fe(PMe3)2 with CO resulted in the isolation of [ENE]Fe(CO)(2) and the hitherto unknown kappa E-2,E%26apos;-[ENE]Fe(CO)(2)L (L = CO, PMe3) complexes. All complexes were fully characterized (NMR, MS, XRD, IR, and Fe-57 Mossbauer spectroscopy), showing the highest electron density on the iron center for pincer-type complexes reported to date. DFT calculations and Fe-57 Mossbauer spectroscopy confirmed the innocent behavior of these ligands. Moreover, preliminary results showed that these complexes can serve as active precatalysts for the hydrosilylation of ketones.

• 出版日期2014-12-8