神奇的手性螺环配体

过渡金属参与的不对称催化反应是有机合成化学研究的前沿和热点. 寻找和发现新颖配体骨架并开展新型高效的手性配体及催化剂的设计合成是不对称催化反应研究的核心内容. 从20世纪90年代,特别是进入21世纪以来,螺环骨架手性配体受到了广泛的关注,并逐渐发展成为特色鲜明的手性配体类别. 手性螺环配体的骨架已由多手性的螺[4.4]壬烷骨架发展到只具有单一手性的螺二氢茚和螺[4.4]壬二烯等螺环骨架类型,形成了包括手性螺环单磷配体、双膦配体、膦氮配体、双氮配体等丰富的手性配体库. 这些手性螺环配体及其催化剂不仅在不对称催化氢化、不对称碳―碳键形成、不对称碳―杂原子键形成等多种类型的不对称催化反应中均表现出优异的催化活性和对映选择性,且使得许多原先难以控制对映选择性的不对称催化反应变得可能. 而今,手性螺环结构已成为“优势结构”,相应的手性螺环配体及其催化剂已被国内外同行广泛采用. 手性螺环配体的兴起为手性催化剂研究增加了活力,极大地促进了不对称合成化学的发展. 今后,手性螺环配体的研究除了将向新型、高效、高选择性手性配体及催化剂方向发展外,将其应用于新的不对称催化反应的对映选择性控制、以及应用于手性天然产物和药物的高效不对称合成将成为新的研究热点.     

手性螺环配体的合成及其在不对称催化反应中的应用研究进展

手性螺环配体的合成及其在不对称催化反应中的应用是不对称合成和催化研究中重要的研究领域之一, 一些手性螺环配体被合成出来并成功地应用于不对称催化反应中. 综述了近十年来手性螺环配体的合成及在不对称催化反应中的应用研究进展.     

平面手性化合物的绝对构型及其判定的教学方法

平面手性是手性的一种特殊情形。结合实例详细阐述了手柄化合物、环蕃化合物、反式环烯烃、轮烯类化合物、金属茂化合物等平面手性化合物的绝对构型及判定方法。     

金属催化的不对称氢化反应研究进展与展望

手性过渡金属络合物催化的不对称氢化反应是合成光学活性化合物的重要方法. 本文从手性配体及手性催化剂、不对称催化新反应、新方法和新策略三个方面简要评述新世纪以来过渡金属催化的不对称氢化反应研究领域的新进展. 从新世纪初至今, 手性单磷配体得到了复兴, 出现了如MonoPhos、SiPhos、DpenPhos等高效单齿亚磷酰胺酯配体; 磷原子手性(P-手性)配体也得到了快速发展, 如BenzP*、ZhanPhos、TriFer等已成为新的高效手性双膦配体; 螺环骨架手性配体成为新世纪手性配体设计合成的亮点, 除了SiPhos、SIPHOX、SpinPHOX等高效手性螺环配体外, 手性螺环吡啶胺基磷配体SpiroPAP的铱催化剂成为目前最高效的分子催化剂. 不对称催化氢化新反应研究也取得了突破, 如非保护烯胺、杂芳环化合物及N-H亚胺的氢化等反应都实现了高对映选择性. 自组装手性催化剂、树枝状手性催化剂、铁磁性纳米负载的可回收手性催化剂, 以及“混合”配体手性催化剂等新方法和新策略也在不对称催化氢化反应中得到了应用. 然而, 手性过渡金属络合物催化的不对称氢化研究仍然充满挑战, 也期待新的突破.     

手性双噁唑啉配体在不对称合成中的应用

双噁唑啉手性配体已广泛用于不对称Henry反应、环丙烷化反应、Aldol反应、烷基化反应、环加成反应中,并表现出很高的对映选择性和催化活性,成为最有用的手性配体之一。文章综述了近10年来双噁唑啉手性配体及高分子受载手性双噁唑啉在不对称合成中的研究进展。     

手性螺环配体及催化剂在不对称催化反应中的应用研究进展

金属参与的不对称催化反应是制备光学活性化合物的重要途径之一,其中新型手性配体的设计合成一直是不对称催化领域中十分关键且富有挑战性的课题.从20世纪90年代末开始,化学家们尝试在手性配体中引入螺环结构,创造性地发展了螺[4.4]壬烷骨架、螺双二氢茚骨架、螺[4.4]壬二烯骨架和螺二色满骨架等手性螺环单齿配体,多齿配体及其催化剂,并成功应用于不对称催化氢化、不对称碳碳键形成或碳杂键形成等不对称转化反应中,合成了众多富有价值的手性产品,有力地推动了不对称催化反应的工业应用化进程.本文综合评述了手性螺环配体的早期发现、发展历程以及近期的研究成果,介绍了螺环配体在药物及天然产物中的应用研究进展,并对手性螺环结构的小分子催化剂的研究进展进行叙述和说明.     

从碳中心到硅中心:手性螺环双膦配体研究的发展

手性螺环配体和催化剂已被公认是一类优势手性配体和催化剂。手性螺环配体的相关研究，促进了不对称催化领域的发展。根据螺环骨架类型进行分类，分别讨论具有螺[4.4]壬烷骨架、螺二氢茚骨架、螺[4.4]壬二烯骨架以及螺二色烷骨架的手性螺环双膦配体的合成及在不对称催化反应中的应用，为今后发展新的不对称催化体系提供了重要参考。     

手性pybox-金属络合物及其在不对称催化反应中的应用

具有C2对称性的双噁唑啉型吡啶(pybox)是一类有效的手性配体,能与许多金属离子配位,其手性催化性能已得到越来越多的关注。本文综述了手性配体pybox和pybox-金属络合物的合成方法,特别是近年来pybox-金属络合物在不对称催化反应如不对称环丙烷化反应、不对称Diels-Alder反应、1,3-偶极环加成反应、不对称aldol反应等中应用的最新进展。     

新型手性螺环双酚的合成及其拆分研究

含手性配体的过渡金属络合物是不对称催化反应中的一类重要催化剂,手性配体的设计合成是不对称催化研究的关键,我们实验室一直致力于新型手性配体骨架结构的设计合成.最近,我们报道了一类螺二氢茚手性骨架结构,发现含螺二氢茚骨架的手性单膦和双膦配体在不对称催化氢化等反应中具有极高的催化活性和对映选择性.为了研究另一类手性螺环骨架结构--螺二芴,我们设计合成了螺环双酚1.在螺环双酚化合物1的合成中,我们采用了连续关环的策略,这不仅克服了构筑螺二芴结构经典方法产率底的弊端[1],而且也使得合成路线大为缩短.接着,我们对螺环双酚1进行了拆分研究,发现酒石酸二酰胺可以选择性地与螺环双酚1的一个对映异构体形成包结络合物[2].通过包结络合物的单晶结构分析,我们还对拆分机制进行了初步探讨.对映体纯螺环双酚化合物1的合成为研究以螺二芴为骨架的手性配体奠定了的基础,有关这类配体的合成及其在不对称催化反应中的应用研究正在进行中.     

1,1'-螺二氢茚-7,7'-二酚(SPINOL)及类似物中螺环骨架的构建方法

1,1'-螺二氢茚骨架是在21世纪初发展起来的一类新型手性配体或催化剂的骨架,具有C2对称性,以及刚性强、稳定性高、易于修饰等特点.周其林等将手性1,1'-螺二氢茚-7,7'-二酚(SPINOL)发展为一系列螺环配体及催化剂,在催化不对称合成领域获得了巨大的成功.1,1'-螺二氢茚骨架的配体及催化剂被认为是为数不多的"优势手性配体和催化剂".尽管催化的不对称合成已经出现,目前方法得到的SPINOL及类似物多为外消旋体,需要进行费力的手性拆分.合成和拆分步骤繁琐的局限性对其大规模生产形成了阻碍.因此,如何从廉价易得的原料出发,发展相应手性螺环骨架配体的高效、不对称催化合成新方法,是非常迫切而且具有挑战性的课题.总结了最近20年SPINOL及螺环骨架类似化合物的合成方法,包括含杂原子的螺环骨架,希望能对配体或催化剂用途的螺环骨架的构建有所启发.     

Diastereoselective Hartwig-Buchwald reaction of chiral amines with rac-[2.2]paracyclophane derivatives

A Hartwig-Buchwald addition of a variety of chiral amines to rac-4-bromo-[2.2]paracyclophane and rac-trifluoromethanesulfonic acid (4-[2.2]paracyclophane) ester was performed with high diastereoselectivities. Kinetic racemic resolution of the starting materials was achieved, providing a rapid access to enantiomerically enriched 4-bromo-[2.2]paracyclophane and the corresponding enantiomerically pure [2.2]paracyclophane amines. Additionally, the first reaction of a secondary amine with a [2.2]paracyclophane halide was achieved.     

Stereoselective synthesis of homoallylic alcohols of the [2.2]paracyclophane series and their use as auxiliaries in asymmetric allylboration of aldehydes

Stereoselectivity of allylboration of 4-formyl[2.2]paracyclophane, 4-acetyl[2.2]paracyclophane, and 4-hydroxy-5-formyl[2.2]paracyclophane was studied and the relative configurations of the homoallylic alcohols obtained were established. Optically pure (Sp,Sc)-(+)-4-(4-hydroxy-1-methylbut-3-enyl)[2.2]paracyclophane and (Rc,Sc)-(+)-4-hydroxy-5-(4-hydroxybut-3-enyl)[2.2]paracyclophane were synthesized. The possibility of using (Sp,Sc)-(+)-4-(4-hydroxy-4-methylbut-3-enyl)[2.2]paracyclophane as a recoverable chiral auxiliary in asymmetric allylboration of aldehydes was demonstrated. Translated fromIzvestiya Akademii Nauk. Seriya Khimicheskaya, No. 5, pp. 914–921, May, 2000.     

Synthesis, characterization, and spectroscopy of 4,7,12,15-[2.2]paracyclophane containing donor and acceptor groups: impact of substitution patterns on through-space charge transfer

This paper reports the synthesis of 4,7,12,15-tetra(4'-dihexylaminostyryl)[2.2]paracyclophane (1), 4-(4'-dihexylaminostyryl)-7,12,15-tri(4' '-nitrostyryl)[2.2]paracyclophane (2), 4,7-bis(4'-dihexylaminostyryl)-12,15-bis(4' '-nitrostyryl)-[2.2]paracyclophane (3), 4,7,12-tris(4'-dihexylaminostyryl)-15-(4' '-nitrostyryl)[2.2]paracyclophane (4), 4,15-bis(4'-dihexylaminostyryl)-7,12-bis(4' '-nitrostyryl)[2.2]paracyclophane (5), and 4,12-bis(4'-dihexylaminostyryl)-7,15-bis(4' '-nitrostyryl)[2.2]paracyclophane (6). These molecules represent different combinations of bringing together distyrylbenzene chromophores containing donor and acceptor groups across a [2.2]paracyclophane (pCp) bridge. X-ray diffraction studies show that the lattice arrangements of 1 and 3 are considerably different from those of the parent chromophores 1,4-bis(4'dihexylaminostyryl)benzene (DD) and 1,4-di(4'-nitrostyryl)benzene (AA). Differences are brought about by the constraint by the pCp bridge and by virtue of chirality in the "paired" species. The absorption and emission spectra of 1-6 are also presented. Clear evidence of delocalization across the pCp structure is observed. Further, in the case of 2, 3, and 4, emission from the second excited state takes place.     

Transannular Hydrogen Bonding in Planar‐Chiral [2.2]Paracyclophane‐Bisamides

A series of [2.2]paracyclophane‐bisamide regioisomers and alkylated comparators were designed, synthesized, and characterized in order to better understand the transannular hydrogen bonding of [2.2]paracyclophane‐based molecular recognition units. X‐Ray crystallography shows that transannular hydrogen bonding is maintained in the solid‐state, but no stereospecific self‐recognition is observed. The assignment of both transannularly and intermolecularly hydrogen bonded N?H stretches could be made by infrared spectroscopy, and the effect of transannular hydrogen bonding on amide bond rotation dynamics is observed by ¹H‐NMR in nonpolar solvents. The consequences of transannular hydrogen bonding on the optical properties of [2.2]paracyclophane is observed by comparing alkylated and non‐alkylated pseudo‐ortho 4,12‐[2.2]paracyclophane‐bisamides. Finally, optical resolution of 4‐mono‐[2.2]paracyclophane and pseudo‐ortho 4,12‐[2.2]paracyclophane‐bisamides was achieved through the corresponding sulfinyl diastereoisomers for circular dichroism studies. Transannular hydrogen bonding in [2.2]paracyclophane‐amides allows preorganization for self‐complementary intermolecular assembly, but is weak enough to allow rapid rotation of the amides even in nonpolar solvents.     

Synthesis of new planar chiral [2.2]paracyclophane Schiff base ligands and their application in the asymmetric Henry reaction

A series of new planar and central chiral ligands based on [2.2]paracyclophane backbones were designed and prepared from enantiomerically pure 4-amino-13-bromo[2.2]paracyclophane and commercially available chiral amino alcohols. Their application in a copper-catalyzed asymmetric Henry reaction resulted in secondary alcohols with high yield and excellent selectivity for active aldehydes (up to 94% ee). This is a successful example of employing planar chiral [2.2]paracyclophane ligands in copper-catalyzed reaction.     

The first three aromatic tribromides of the [2.2]paracyclophane series

From the reaction mixtures in the uncatalyzed polybromination of [2.2]paracyclophane by the action of excess Br₂ in CCl₄, there have been found along with the known products — 4,15- and 4,16-dibromo[2.2]paracyclophanes — two new aromatic tribromides of this series, which have been isolated in pure form: 4,12,15- and 4,15,16-tribromo[2.2]paracyclophanes. Special experiments demonstrated that the mixtures of these tribromides are formed as a result of competitive monobromination of 4,15-dibromo[2.2]paracyclophane; the 4,15,16-tribromo[2.2]paracyclophane, together with still another newly isolated isomer of this series — 4,8,12-tribromo[2.2]paracyclophane — is formed as a result of competitive monobromination of 4,16-dibromo[2.2]paracyclophane. As an explanation of the features of the orienting effect of substituents in these competing reactions, a rule was proposed: On the conventional orientation (from the electronic point of view) of entry of the bromine atom into the substituted ring (para > ortho > meta), a steric limitation is imposed on its attack in the pseudo-gem-position, owing to the bulky bromine atom that is transannularly positioned above it in the neighboring aromatic ring. The structures of all of the tribromides were established on the basis of elemental analyses, mass spectrometry, and¹H NMR spectrometry (including PMR using the homonuclear Overhauser effect). The data obtained in this work indicate that the 4,12,15-tribromo[2.2]paracyclophane and 4,15,16-tribromo[2.2]paracyclophane are predecessors of the two tetrabromides previously obtained by Cram — 4,7,12,15- and 4,5,15,16-tetrabromo[2.2]paracyclophanes; and the 4,8,12-tribromo[2.2]paracyclophane is a possible predecessor of 4,8,12,16-tetrabromo[2.2]paracyclophane, which is unknown up to the present time.A. N. Nesmeyanov Institute of Heteroorganic Compounds, Russian Academy of Sciences, 117813 Moscow. Translated from Izvestiya Akademii Nauk, Seriya Khimicheskaya, No. 8, pp. 1837–1843, August, 1992.     

The synthesis and directed ortho-lithiation of 4-tert-butylsulfinyl[2.2]paracyclophane

The ortho-lithiation of one diastereoisomer of 4-tert-butylsulfinyl[2.2]paracyclophane is the key step to the synthesis of a range of 4,5-disubstituted [2.2]paracyclophane derivatives.     

Phane properties of [2.2]paracyclophane/dehydrobenzoannulene hybrids

A series of [2.2]paracyclophane/dehydrobenzo[14]annulene (PC/DBA) hybrids (hydrocarbons 5, 6, 9, 10 b, and 10 c), [2.2]paracyclophane/dehydro[14]annulene (PC/DA) hybrids (7 and 8) and suitable model systems (11, 12, and 33) has been synthesized. Comparison of the electronic absorption spectra in each series of compounds provides further insight into the global communication between the decks in the [2.2]paracyclophane unit.     

Synthesis of planar chiral [2.2]paracyclophane Schiff bases for the enantioselective Henry reaction

A series of diastereomerically pure Schiff base ligands based on [2.2]paracyclophane backbones were synthesized and separated. The new planar chiral [2.2]paracyclophane Schiff bases were used as ligands in Cu-catalyzed asymmetric Henry reactions with high yields and enantioselectivities.     

毛细管气相色谱法研究对环芳烷二氯化产物的组成

在选定毛细管柱温,载气流量、分流比、注入口和ＦＩＤ的温度等色谱条件下,分析了对环芳烷（ＰＣＰ）二氯化产物的组成。定性分析结果表明,ＰＣＰ二氯化产物除主要组分是二氯对环芳烷（ＤＣＰＣＰ）外,还含少量的一氯对环芳烷（ＭＣＰＣＰ）和三氯对环芳烷（ＴＣＰＣＰ）;ＤＣＰＣＰ的色谱图上出现了３个明显的色谱峰,证明３种异构体相对含量较高。用丙酮－石油醚混合溶剂分离去除 物得到了纯度为９９．１％的ＤＣＰＣＰ。以邻苯二甲酸二丁酯为内标物,测定了ＤＣＰＣＰ对内标物的相对质量校正因子。按内标法定量分析了ＰＣＰ二氯化产物各组分的含量,对ＤＣＰＣＰ分析的相对标准偏差小于３％。