Bailey Philip J, Coxall Robert A, Dick Caroline M, Fabre Sylvie, Henderson Louise C, Herber Christian, Liddle Stephen T, Loroño-González Daniel, Parkin Andrew, Parsons Simon
Department of Chemistry, The University of Edinburgh, The King's Buildings, West Mains Road, Edinburgh, EH9 3JJ, UK.
Chemistry. 2003 Oct 6;9(19):4820-8. doi: 10.1002/chem.200305053.
A new high-yield synthesis of [(PhCH(2))(2)Mg(thf)(2)] and [(PhCH(2))CH(3)Mg(thf)] via benzylpotassium has allowed a simple entry into benzylmagnesium coordination chemistry. The syntheses and X-ray crystal structures of both [(eta(2)-Me(2)NCH(2)CH(2)NMe(2))Mg(CH(2)Ph)(2)] and [eta(2)-HCC(CH(3))NAr'Mg(CH(2)Ph)(thf)] (Ar'=2,6-diisopropylphenyl) are reported. The latter beta-diketiminate complex reacts with dioxygen to provide a 1:2 mixture of dimeric benzylperoxo and benzyloxo complexes. The benzylperoxo complex [eta(2)-HCC(CH(3))NAr'Mg(mu-eta(2):eta(1)-OOCH(2)Ph)] is the first example of a structurally characterised Group 2 metal-alkylperoxo complex and contains the benzylperoxo ligands in an unusual mu-eta(2):eta(1)-coordination mode, linking the two five-coordinate magnesium centres. The O[bond]O separation in the benzylperoxo ligands is 1.44(2) A. Reaction of the benzylperoxo/benzyloxo complex mixture with further [eta(2)-HCC(CH(3))NAr'Mg(CH(2)Ph)(thf)] results in complete conversion of the benzylperoxo species into the benzyloxo complex. This reaction, therefore, establishes the cleavage of dioxygen by this system as a two-step process that involves initial oxygen insertion into the Mg[bond]CH(2)Ph bond followed by O[bond]O/Mg[bond]C sigma-bond metathesis of the resulting benzylperoxo ligand with a second Mg[bond]CH(2)Ph bond. The formation of a 1:2 mixture of the benzylperoxo and benzyloxo species indicates that the rate of the insertion is faster than that of the metathesis, and this is shown to be consistent with a radical mechanism for the insertion process.
通过苄基钾对[(PhCH₂)₂Mg(thf)₂]和[[(PhCH₂)CH₃Mg(thf)]₂]进行新的高产率合成,为苄基镁配位化学提供了一条简单的途径。报道了[(η²-Me₂NCH₂CH₂NMe₂)Mg(CH₂Ph)₂]和[η²-HC[C(CH₃)NAr']₂Mg(CH₂Ph)(thf)](Ar' = 2,6-二异丙基苯基)的合成及X射线晶体结构。后一种β-二酮亚胺配合物与氧气反应,生成二聚苄基过氧配合物和苄氧基配合物的1:2混合物。苄基过氧配合物[[η²-HC[C(CH₃)NAr']₂Mg(μ-η²:η¹-OOCH₂Ph)]₂]是结构表征的第2族金属-烷基过氧配合物的首个实例,其苄基过氧配体以不寻常的μ-η²:η¹-配位模式存在,连接两个五配位镁中心。苄基过氧配体中的O—O间距为1.44(2) Å。苄基过氧/苄氧基配合物混合物与更多的[η²-HC[C(CH₃)NAr']₂Mg(CH₂Ph)(thf)]反应,导致苄基过氧物种完全转化为苄氧基配合物。因此,该反应确定了该体系中氧气的裂解是一个两步过程,包括最初氧气插入Mg—CH₂Ph键,随后所得苄基过氧配体的O—O/Mg—C σ键复分解与第二个Mg—CH₂Ph键反应。苄基过氧和苄氧基物种1:2混合物的形成表明插入速率比复分解速率快,这表明插入过程的自由基机理是一致的。
