%0 Journal Article
%A Smith, Patrick
W.
%A Tilley, T. Don
%D 2015
%T Silane–Allyl Coupling Reactions of Cp*(iPr2MeP)Fe(η3‑C3H5) and Synthetic Access to the Hydrido–Dinitrogen
Complex Cp*(iPr2MeP)FeH(N2)
%U https://acs.figshare.com/articles/journal_contribution/Silane_Allyl_Coupling_Reactions_of_Cp_sup_i_i_i_sup_Pr_sub_2_sub_MeP_Fe_sup_3_sup_C_sub_3_sub_H_sub_5_sub_and_Synthetic_Access_to_the_Hydrido_Dinitrogen_Complex_Cp_sup_i_i_i_sup_Pr_sub_2_sub_MeP_FeH_N_sub_2_sub_/2205895
%R 10.1021/acs.organomet.5b00184.s001
%2 https://acs.figshare.com/ndownloader/files/3840448
%K Synthetic Access
%K dehydrocoupling reactions
%K iron allyl
%K allyl group
%K silane
%K allyl ligand
%K report reactions
%K stoichiometric hydrosilation
%K Cp
%X Herein
we report reactions of the iron allyl complex Cp*(iPr2MeP)Fe(η3-C3H5) with
sterically demanding silanes. These reactions lead to stoichiometric
hydrosilation of the allyl ligand and dehydrocoupling reactions between
the silane and the allyl group. Furthermore, this system has allowed
access to a novel Si–H oxidative addition–reductive
elimination equilibrium involving Cp*(iPr2MeP)FeH2(SiH2DMP) and Cp*(iPr2MeP)FeH(N2), which was independently synthesized.
%I ACS Publications