10.1021/om9006856.s001
M. Angeles Alvarez
M. Angeles
Alvarez
M. Esther García
M. Esther
García
M. Eugenia Martínez
M. Eugenia
Martínez
Alberto Ramos
Alberto
Ramos
Miguel A. Ruiz
Miguel A.
Ruiz
Migration and Insertion Processes in the Reactions of the Hydrocarbyl-Bridged Unsaturated Complexes [Mo<sub>2</sub>(η<sup>5</sup>-C<sub>5</sub>H<sub>5</sub>)<sub>2</sub>(μ-R)(μ-PCy<sub>2</sub>)(CO)<sub>2</sub>] (R = Me, CH<sub>2</sub>Ph, Ph) with CO and NO
American Chemical Society
2009
CH 2Ph Ph
CO
dinitrosyl derivatives
Mo 2Cp
room temperature
2009-11-09 00:00:00
Dataset
https://acs.figshare.com/articles/dataset/Migration_and_Insertion_Processes_in_the_Reactions_of_the_Hydrocarbyl_Bridged_Unsaturated_Complexes_Mo_sub_2_sub_sup_5_sup_C_sub_5_sub_H_sub_5_sub_sub_2_sub_R_PCy_sub_2_sub_CO_sub_2_sub_R_Me_CH_sub_2_sub_Ph_Ph_with_CO_and_NO/2814517
The alkyl-bridged unsaturated complexes [Mo<sub>2</sub>Cp<sub>2</sub>(μ-R)(μ-PCy<sub>2</sub>)(CO)<sub>2</sub>] (R = Me, CH<sub>2</sub>Ph) react readily with CO (1 atm) at room temperature or below, but the products are strongly dependent on the alkyl bridge. Thus the benzyl complex <b>1b</b> is selectively carbonylated to give the hydride derivative [Mo<sub>2</sub>Cp(η<sup>5</sup>-C<sub>5</sub>H<sub>4</sub>CH<sub>2</sub>Ph)(μ-H)(μ-PCy<sub>2</sub>)(CO)<sub>4</sub>] [Mo−Mo = 3.217(1) Å], whereas the methyl complex gives first the acetyl-bridged complex [Mo<sub>2</sub>Cp<sub>2</sub>{μ-κ<sup>1</sup>:η<sup>2</sup>-C(O)Me}(μ-PCy<sub>2</sub>)(CO)<sub>3</sub>], which then evolves to give up to three different products depending on the reaction conditions: the hydrides [Mo<sub>2</sub>Cp(η<sup>5</sup>-C<sub>5</sub>H<sub>4</sub>R′)(μ-H)(μ-PCy<sub>2</sub>)(CO)<sub>4</sub>] (R′ = Me, C(O)Me) and the heptacarbonyl complex [Mo<sub>2</sub>Cp(μ-PCy<sub>2</sub>)(CO)<sub>7</sub>] (Mo−Mo = 3.2120(3) Å), the latter requiring the displacement of a Cp ligand. The phenyl-bridged complex [Mo<sub>2</sub>Cp<sub>2</sub>(μ-Ph)(μ-PCy<sub>2</sub>)(CO)<sub>2</sub>] requires higher CO pressures (ca. 3 atm) and temperatures (ca. 333 K) to be carbonylated at a reasonable rate, then yielding a mixture of the corresponding hydride [Mo<sub>2</sub>Cp(η<sup>5</sup>-C<sub>5</sub>H<sub>4</sub>Ph)(μ-H)(μ-PCy<sub>2</sub>)(CO)<sub>4</sub>] and the above heptacarbonyl complex. The title complexes also react readily with NO (2000 ppm in N<sub>2</sub>) at room temperature, but the products obtained, again, strongly depend on the starting substrate. The methyl-bridged complex gives a mixture of two dinitrosyl derivatives having terminal methyl ([Mo<sub>2</sub>Cp<sub>2</sub>(Me)(μ-PCy<sub>2</sub>)(CO)(NO)<sub>2</sub>], Mo−Mo = 3.074(1) Å) or bridging acetyl ([Mo<sub>2</sub>Cp<sub>2</sub>{μ-κ<sup>1</sup>:η<sup>2</sup>-C(O)Me}(μ-PCy<sub>2</sub>)(NO)<sub>2</sub>], Mo−Mo = 2.9931(6) Å) ligands. The benzyl complex gives the analogous benzyl derivative ([Mo<sub>2</sub>Cp<sub>2</sub>(CH<sub>2</sub>Ph)(μ-PCy<sub>2</sub>)(CO)(NO)<sub>2</sub>], Mo−Mo = 3.0993(4) Å) as major product, along with small amounts of the dicarbonyl [Mo<sub>2</sub>Cp<sub>2</sub>(CH<sub>2</sub>Ph)(μ-PCy<sub>2</sub>)(CO)<sub>2</sub>(NO)<sub>2</sub>] and the trinitrosyl complex [Mo<sub>2</sub>Cp<sub>2</sub>(μ-PCy<sub>2</sub>)(μ-NO)(NO)<sub>2</sub>], the formation of the latter requiring the displacement of the benzyl ligand. Finally, the phenyl-bridged complex gives again the analogous phenyl derivative [Mo<sub>2</sub>Cp<sub>2</sub>(Ph)(μ-PCy<sub>2</sub>)(CO)(NO)<sub>2</sub>], but small amounts of dinitrosyl derivatives having terminal benzoyl, [Mo<sub>2</sub>Cp<sub>2</sub>{C(O)Ph}(μ-PCy<sub>2</sub>)(CO)(NO)<sub>2</sub>], bridging benzoyl, [Mo<sub>2</sub>Cp<sub>2</sub>{μ-κ<sup>1</sup>:η<sup>2</sup>-C(O)Ph}(μ-PCy<sub>2</sub>)(NO)<sub>2</sub>], and bridging phenyl ([Mo<sub>2</sub>Cp<sub>2</sub>{μ-κ<sup>1</sup>:η<sup>2</sup>-Ph}(μ-PCy<sub>2</sub>)(NO)<sub>2</sub>], Mo−Mo = 2.9753(5) Å)) ligands are now formed. The latter complex can be selectively generated through the photochemical decarbonylation of the major phenyl complex. In contrast, separate experiments revealed that all hydrocarbyl complexes of the type [Mo<sub>2</sub>Cp<sub>2</sub>(R)(μ-PCy<sub>2</sub>)(CO)(NO)<sub>2</sub>] rearrange thermally at ca. 343 K into the corresponding acyl isomers [Mo<sub>2</sub>Cp<sub>2</sub>{μ-κ<sup>1</sup>:η<sup>2</sup>-C(O)R}(μ-PCy<sub>2</sub>)(NO)<sub>2</sub>].