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分子间烯烃和炔烃与β-S-取代醛的氢酰化反应:对半不稳定P-O-P配体作用的机理洞察

Intermolecular alkene and alkyne hydroacylation with beta-S-substituted aldehydes: mechanistic insight into the role of a hemilabile P-O-P ligand.

作者信息

Moxham Gemma L, Randell-Sly Helen, Brayshaw Simon K, Weller Andrew S, Willis Michael C

机构信息

Department of Chemistry, University of Bath, Bath, BA2 7AY, UK.

出版信息

Chemistry. 2008;14(27):8383-97. doi: 10.1002/chem.200800738.

DOI:10.1002/chem.200800738
PMID:18666296
Abstract

A straightforward to assemble catalytic system for the intermolecular hydroacylation reaction of beta-S-substituted aldehydes with activated and unactivated alkenes and alkynes is reported. These catalysts promote the hydroacylation reaction between beta-S-substituted aldehydes and challenging substrates, such as internal alkynes and 1-octene. The catalysts are based upon [Rh(cod)(DPEphos)][ClO(4)] (DPEphos=bis(2-diphenylphosphinophenyl)ether, cod=cyclooctadiene) and were designed to make use of the hemilabile capabilities of the DPEphos ligand to stabilise key acyl-hydrido intermediates against reductive decarbonylation, which results in catalyst death. Studies on the stoichiometric addition of aldehyde (either ortho-HCOCH(2)CH(2)SMe or ortho-HCOC(6)H(4)SMe) and methylacrylate to precursor acetone complexes [Rh(acetone)(2)(DPEphos)][X] [X=closo-CB(11)H(6)Cl(6) or [BAr(F) (4)] (Ar(F)=3,5-(CF(3))(2)C(6)H(3))] reveal the role of the hemilabile DPEphos ligand. The crystal structure of [Rh(acetone)(2)(DPEphos)][X] shows a cis-coordinated diphosphine ligand with the oxygen atom of the DPEphos distal from the rhodium. Addition of aldehyde forms the acyl hydride complexes [Rh(DPEphos)(COCH(2)CH(2)SMe)H][X] or [Rh(DPEphos)(COC(6)H(4)SMe)H][X], which have a trans-spanning DPEphos ligand and a coordinated ether group. Compared to analogous complexes prepared with dppe (dppe=1,2-bis(diphenylphosphino)ethane), these DPEphos complexes show significantly increased resistance towards reductive decarbonylation. The crystal structure of the reductive decarbonylation product [Rh(CO)(DPEphos)(EtSMe)][closo-CB(11)H(6)I(6)] is reported. Addition of alkene (methylacrylate) to the acyl-hydrido complexes forms the final complexes [Rh(DPEphos)(eta(1)-MeSC(2)H(4)-eta(1)-COC(2)H(4)CO(2)Me)][X] and [Rh(DPEphos)(eta(1)-MeSC(6)H(4)-eta(1)-COC(2)H(4)CO(2)Me)][X], which have been identified spectroscopically and by ESIMS/MS. Intermediate species in this transformation have been observed and tentatively characterised as the alkyl-acyl complexes [Rh(CH(2)CH(2)CO(2)Me)(COC(2)H(4)SMe)(DPEphos)][X] and [Rh(CH(2)CH(2)CO(2)Me)(COC(6)H(4)SMe)(DPEphos)][X]. In these complexes, the DPEphos ligand is now cis chelating. A model for the (unobserved) transient alkene complex that would result from addition of alkene to the acyl-hydrido complexes comes from formation of the MeCN adducts [Rh(DPEphos)(MeSC(2)H(4)CO)H(MeCN)][X] and [Rh(DPEphos)(MeSC(6)H(4)CO)H(MeCN)][X]. Changing the ligand from DPEphos to one with a CH(2) linkage, Ph(2)P(C(6)H(4))CH(2), gave only decomposition on addition of aldehyde to the acetone precursor, which demonstrated the importance of the hemiabile ether group in DPEphos. With Ph(2)P(C(6)H(4))S, the sulfur atom has the opposite effect and binds too strongly to the metal centre to allow access to productive acetone intermediates.

摘要

报道了一种用于β-S-取代醛与活化和未活化烯烃及炔烃的分子间氢酰化反应的易于组装的催化体系。这些催化剂促进β-S-取代醛与具有挑战性的底物(如内炔和1-辛烯)之间的氢酰化反应。催化剂基于[Rh(cod)(DPEphos)][ClO(4)](DPEphos = 双(2-二苯基膦基苯基)醚,cod = 环辛二烯),并设计利用DPEphos配体的半不稳定能力来稳定关键的酰基氢化物中间体以防止还原脱羰,还原脱羰会导致催化剂失活。对醛(邻-HCOCH(2)CH(2)SMe或邻-HCOC(6)H(4)SMe)与甲基丙烯酸甲酯化学计量加入到前体丙酮配合物[Rh(丙酮)(2)(DPEphos)][X] [X = closo-CB(11)H(6)Cl(6)或[BAr(F)(4)](Ar(F)=3,5-(CF(3))(2)C(6)H(3))]的研究揭示了半不稳定DPEphos配体的作用。[Rh(丙酮)(2)(DPEphos)][X]的晶体结构显示双膦配体顺式配位,DPEphos的氧原子远离铑。加入醛形成酰基氢化物配合物[Rh(DPEphos)(COCH(2)CH(2)SMe)H][X]或[Rh(DPEphos)(COC(6)H(4)SMe)H][X],其具有跨式DPEphos配体和配位醚基。与用dppe(dppe = 1,2-双(二苯基膦基)乙烷)制备的类似配合物相比,这些DPEphos配合物对还原脱羰的抗性显著增加。报道了还原脱羰产物[Rh(CO)(DPEphos)(EtSMe)][closo-CB(11)H(6)I(6)]的晶体结构。将烯烃(甲基丙烯酸甲酯)加入到酰基氢化物配合物中形成最终配合物[Rh(DPEphos)(η(1)-MeSC(2)H(4)-η(1)-COC(2)H(4)CO(2)Me)][X]和[Rh(DPEphos)(η(1)-MeSC(6)H(4)-η(1)-COC(2)H(4)CO(2)Me)][X],已通过光谱和ESIMS/MS对其进行了鉴定。观察到该转化过程中的中间物种,并初步将其表征为烷基酰基配合物[Rh(CH(2)CH(2)CO(2)Me)(COC(2)H(4)SMe)(DPEphos)][X]和[Rh(CH(2)CH(2)CO(2)Me)(COC(6)H(4)SMe)(DPEphos)][X]。在这些配合物中,DPEphos配体现在是顺式螯合的。由烯烃加入到酰基氢化物配合物中产生的(未观察到的)瞬态烯烃配合物的模型来自于MeCN加合物[Rh(DPEphos)(MeSC(2)H(4)CO)H(MeCN)][X]和[Rh(DPEphos)(MeSC(6)H(4)CO)H(MeCN)][X]的形成。将配体从DPEphos变为具有CH(2)连接的配体Ph(2)P(C(6)H(4))CH(2),在将醛加入到丙酮前体时仅发生分解,这证明了DPEphos中半不稳定醚基的重要性。对于Ph(2)P(C(6)H(4))S,硫原子具有相反的效果,与金属中心结合过强,无法得到有效的丙酮中间体。

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