钯配合物和手性磷酸连续催化的烯丙醇和醛的不对称羰基烯丙基化反应

利用钯配合物/手性磷酸催化剂体系,通过不对称连续催化,实现了烯丙醇和醛的不对称羰基烯丙基化反应.该反应使用廉价易得的烯丙醇底物,在催化量的手性磷酸作用下,以优秀的产率和立体选择性得到了高烯丙醇产物.     

手性二茂铁类配体在钯催化不对称反应中的应用

本文综述了近10 年来手性二茂铁类配体在钯催化不对称烯丙基取代反应,包括各种不同底物的烯丙基烷基化、烯丙基胺基化和烯丙基磺酰化反应中的应用,并对其在不对称Claisen 重排、不对称Diels-Alder 反应、不对称Heck 反应、不对称羰基化、不对称氢化硅烷化和不对称碳碳键断裂等反应中的应用进行了综述,对部分反应的机理和该领域的发展前景进行了讨论。     

膦配体电子和空间效应对钯催化羰化酯化反应的影响

膦配体修饰的钯催化剂在不饱和化合物羰化酯化反应中使用广泛,其催化活性在很大程度上取决于金属周围的配体环境。膦配体电子和空间效应的调变,可以实现定向催化,甚至可以预测催化行为。新催化反应的开发和现有催化反应的优化都可以通过膦配体的合理设计来实现。配体已经是成为公认的最重要的需要详细研究的变量之一。本文综述了钯催化烯烃羰化酯化反应中,单齿膦配体、双齿膦配体、半稳定膦配体电子和空间效应对活性和选择性的调控作用,并对面临的问题和未来的发展方向进行了探讨,以期对未来设计高效高选择性羰化酯化反应催化体系提供指导。     

钯配合物与手性方酰胺协同催化的乙烯基碳酸乙烯酯与醛的不对称脱羧环加成反应

利用金属钯与非手性膦配体原位生成的钯配合物和手性方酰胺为协同催化体系实现了乙烯基碳酸乙烯酯（VECs）与甲醛的不对称脱羧环加成反应,以良好的产率和对映选择性得到了手性叔醇类化合物.发现了有机小分子催化剂-手性方酰胺可实现该反应的不对称诱导,为通过两性离子烯丙基钯中间体的环加成反应的研究提供了新的思路.     

亚砜及亚磺酰胺类配体催化不对称反应的新进展

亚砜及亚磺酰胺类化合物作为手性配体催化不对称反应是目前研究最为活跃的领域之一,苯环骨架以及链状骨架的亚砜及亚磺酰胺类手性配体相继成功地用于不对称反应中.主要综述了近年来含亚砜及亚磺酰胺类的手性配体催化不对称反应的研究进展.     

手性配体催化二烷基锌—羰基不对称加成制光活性醇的反应

关于手性配体催化二烷基锌一羰基的不对称加成生成光活性醇的反应,从催化剂、不对称催化机理与自催化过程、手性放大等方面进行了概述,参考文献50篇。     

铑催化的烯烃不对称氢甲酰化反应研究进展

烯烃的氢甲酰化反应是工业上最重要的均相催化反应之一,而通过烯烃的不对称氢甲酰化反应合成光学活性醛,对于药物、农药、香料和天然产物合成方面具有重要的意义.近年来,由于铑与膦配体形成的络合物在催化烯烃的不对称氢甲酰化反应中具有反应活性高、选择性好等优点而引起广泛关注.通过调控铑络合物中手性膦配体的电子与立体化学环境,已经成为实现不对称氢甲酰化反应高活性和高选择性最主要的方法.主要介绍了近期在铑催化的不对称氢甲酰化反应研究方面取得的进展,重点介绍几类代表性的手性膦配体在此类反应中的应用.     

手性烯烃配体在不对称催化领域的最新进展

手性烯烃配体是一类具有重要应用前景的新型配体,自发展以来就引起化学家们的广泛关注.手性烯烃配体在一些反应中表现出比传统氮、磷、氧配体更高的活性和选择性,实现了一些使用其它类型配体不能实现的化学转化.为了增强手性烯烃配体与金属的配位能力,化学家们在其骨架上引入杂原子,发展得到混合型的烯烃配体,增加了配体的多样性,对进一步拓展手性烯烃配体的类型和应用具有非常重要的意义.目前关于手性烯烃配体已经有一些综述,本综述将着重介绍最近几年来发展的手性开链双烯配体、手性膦烯烃配体和手性硫烯烃配体及其在过渡金属催化的不对称反应领域的应用.     

钯催化的酰胺羰化反应研究-溶剂的影响

考察了不同溶剂(如N-甲基吡咯烷酮、乙腈、聚乙二醇、1-甲基-3-己基咪唑六氟磷酸盐)以及不同共催化剂(如十六烷基三甲基溴化铵、四丁基溴化铵、溴化锂)对苯甲醛酰胺羰化反应的影响.与使用高沸点的有机溶剂N-甲基吡咯烷酮相比,使用乙腈、聚乙二醇和1-甲基-3-己基咪唑六氟磷酸盐作溶剂,反应后处理过程大大简化,反应界面更加友好.聚乙二醇作溶剂首次应用于酰胺羰化反应.     

不对称催化氢甲酰化中高效手性配体的进展

比较系统地总结了应用于不对称催化氢甲酰化方面各类配体的合成、设计思路及性能,侧重于评述高效配体的最新进展.     

Trinuclear Rhodium Complexes and Their Relevance for Asymmetric Hydrogenation

Various trinuclear rhodium complexes of the type [Rh₃(PP)₃(μ₃‐OH)_x(μ₃‐OMe)_2?x]BF₄ (where PP=Me‐DuPhos, dipamp, dppp, dppe; different ligands and μ‐bridging anions) are presented, which are formed upon addition of bases such as NEt₃ to solvate complexes [Rh(PP)(solvent)₂]BF₄. They were extensively characterized by X‐ray diffraction and NMR spectroscopy (¹⁰³Rh, ³¹P, ¹³C, ¹H). Their in situ formation resulting from basic additives (NEt₃) or basic prochiral olefins (without addition of another base) can cause deactivation of the asymmetric hydrogenation. This effect can be reversed by means of acidic additives.     

手性膦配体合成及其在不对称催化中的应用*

本文较为详细地综述了手性膦配体的合成进展, 并介绍了其在不对称氢化反应、不对称氢甲酰化反应及不对称氢酯基化反应中的应用。     

非螯合型手性双膦铑对脱氢苯丙氨酸的不对称催化加氢反应

报道从Ｄ－甘露醇出发合成手性双膦（２Ｓ，５Ｓ）－３，６－双（二苯膦）－１，４：３，６－双脱水－２，５－双去氧－Ｌ－艾杜醇，原位下ＢＤＰＩ与３种铑配合物作用生成手性非螯合型双膦铑催化剂，常压下对４种脱氢苯丙氨酸衍生物进行不对称催化化反主尖，对反应结果及ｅ．ｅ．值进行了讨论。     

手性三齿席夫碱金属络合物催化的不对称反应

各种手性三齿席夫碱与金属（钛, 铬, 钒, 铁, 铜, 铝）形成的络合物,在催化醛的硅腈化、Diels-Alder、Aldol、杂ene、硫化物的氧化等不对称反应中具有良好的催化活性和对映选择性;其中一些催化体系已成功的应用于天然产物的全合成中,该研究取得了系统性的研究成果。本文综述了手性三齿席夫碱金属络合物在不对称催化反应中的研究进展,同时,探讨了催化剂结构和反应条件对其催化活性和对映选择性的影响。     

Asymmetric Hydroformylation of Olefins Catalyzed by a Chiral Diphosphite-Rhodium Complex

A C2-symmetrical aryl diphosphite derived from chiral binaphthol was prepared and its rhodium complex was used as catalysts in the asymmetric hydroformylation of olefins. High catalytic activity and good regioselectivity were observed. Up to 31.2% ee and 38.1% ee were achieved for the hydroformylation of 4-fluoro-styrene and vinyl acetate respectively. The influences of ligand-to-metal ratio, reaction temperature and the pressure of syn-gas on the enantioselectivity and regioselectivity were also studied.     

Enantioselective Direct Alkynylation of Ketones Catalyzed by Chiral CCN Pincer RhIII Complexes

A direct asymmetric alkynylation of ketones with new chiral CCN Rh catalysts containing N‐heterocyclic carbene and oxazoline hybrid ligands is described. The catalytic reaction of fluoroalkyl‐substituted ketones, ArCOCF₂X (X=F, Cl, H), with aromatic and aliphatic alkynes yielded the corresponding chiral propargyl alcohols with high enantioselectivity. Control and kinetic experiments suggested a bis(alkynyl) Rh intermediate as the active species for the C?C bond‐forming step.     

Rhodium/Chiral Diene‐Catalyzed Asymmetric 1,4‐Addition of Arylboronic Acids to Chromones: A Highly Enantioselective Pathway for Accessing Chiral Flavanones

Chromone has been noted to be one of the most challenging substrates in the asymmetric 1,4‐addition of α,β‐unsaturated carbonyl compounds. By employing the rhodium complex associated with a chiral diene ligand, (R,R)‐Ph‐bod*, the 1,4‐addition of a variety of arylboronic acids was realized to give high yields of the corresponding flavanones with excellent enantioselectivities (≥97 % ee, 99 % ee for most substrates). Ring‐opening side products, which would lead to erosion of product enantioselectivity, were not observed under the stated reaction conditions.     

Planar Chiral Rhodium Complexes of 1,4-Benzoquinones

Diene rhodium complexes are important catalysts in modern organic synthesis. Herein, we report a new approach to such complexes with the uncommon planar chirality. The synthesis is achieved by face-selective coordination of the prochiral 2,5-disubstituted-1,4-benzoquinones (R₂-Q) with rhodium precursors containing the chiral auxiliary ligand S-salicyl-oxazoline (S-Salox). Such coordination leads to the formation of (R,R-R₂-Q)Rh(S-Salox) complexes in high yields and with exceptional diastereoselectivity (d. r.>20 : 1). Subsequent replacement of the auxiliary ligand provides various benzoquinone rhodium complexes with retention of the planar chirality. Combined theoretical and experimental studies show that due to their electron-withdrawing nature benzoquinones bind metals stronger than the related 1,4-cyclohexadiene, but weaker than other common diene ligands, such as cyclooctadiene.     

Enantioselective Access to Spirocyclic Sultams by Chiral Cpx–Rhodium(III)‐Catalyzed Annulations

Chiral spirocyclic sultams are a valuable compound class in organic and medicinal chemistry. A rapid entry to this structural motif involves a [3+2] annulation of an N‐sulfonyl ketimine and an alkyne. Although the directing‐group properties of the imino group for C?H activation have been exploited, the developments of related asymmetric variants have remained very challenging. The use of rhodium(III) complexes equipped with a suitable atropchiral cyclopentadienyl ligand, in conjunction with a carboxylic acid additive, enables an enantioselective and high yielding access to such spirocyclic sultams.