Oxidative addition of iodine, iodomethane and iodobenzene to the rhodium phosphino enolate complex
[Rh
{Ph2PCH
C(
O
)Ph}(CO)(PPh3)] and carbon monoxide insertion into the resulting Rh–carbon bond of [Rh
{Ph2PCH
C(
O
)Ph}Me(I)(CO)(PPh3)]
Abstract
The
oxidative addition of homo- and heteronuclear molecules XI (X=I, Me, Ph) to the square planar rhodium phosphino enolate complex [Rh{Ph2PCH
C(
O
)Ph}(CO)(PPh3)]
1 afforded the hexacoordinate Rh(III) complexes
[Rh
{Ph2PCH
C(
O
)Ph}X(I)(CO)(PPh3)] (X=Me 2; X=Ph 3; X=I 4). Complex 2 undergoes CO insertion into
the Rh–Me bond to afford three isomers of the acetyl species [Rh
{Ph2PCH
C(
O
)Ph}{C(O)Me}(I)(CO)(PPh3)]
5a–c. Two of these isomers lose acetyl iodide to regenerate 1 and these transformations were followed by NMR
and IR spectroscopic methods. The reaction of 1 with acetyl chloride results in rapid formation of the acetyl complex
[Rh
{Ph2PCH
C(
O
)Ph}{C(O)Me}(Cl)(CO)(PPh3)]
6. When left in solution, 6 isomerizes to give two additional
isomeric acetyl species. All three isomers rapidly decompose to a Rh(I) species. The crystal structures of 1–3
have been determined by X-ray diffraction. The coordination geometry around the rhodium atom of 2 and 3 is distorted octahedral
and the alkyl
and halide ligands are
in a mutually trans position.