硼基路易斯酸-过渡金属配合物:新型双功能催化剂（英文）

路易斯酸-过渡金属(LA-TM)配合物作为一种新型的双功能催化剂崭露头角.有别于传统的过渡金属双功能催化剂,LA-TM催化剂另辟蹊跷,用路易斯酸功能位点作为电子受体,过渡金属作为电子给体,进行新型的双功能催化.近期,LA-TM配合物迅速发展.依据其键合特点,对硼基LA-TM配合物进行综述,包括sp3杂化、sp2杂化和sp杂化的硼基LA-TM配合物,并归纳了其在LA-TM催化方面的潜在应用,包括H—H/E—H/E—E键活化、氢化、硅氢化和转移脱氢化等等.本综述有望将为开拓LA-TM双功能催化的新领域提供有价值的信息.     

手性席夫碱配合物用于催化不对称环氧化

手性席夫碱过渡金属配合物可以高效催化烯烃不对称环氧化反应,因此其合成及催化性能研究一直以来受到广泛的关注.本文较详细地综述了最近十年来合成的手性席夫碱过渡金属配合物及其对烯烃环氧化反应的催化性能的研究进展.重点讨论了新型的对称和非对称salen型配体过渡金属配合物的合成及其应用,分析探讨了手性席夫碱过渡金属配合物作为催化剂的优缺点、催化机理和未来发展方向.     

同核双金属烯烃聚合催化剂

与单核金属配合物催化剂相比,双核金属配合物催化剂所具的双金属活性中心对烯烃聚合催化活性和所得聚合物的性能(包括聚合物微结构、分子量大小和分子量分布)产生了重要影响。本文综述了双金属配合物作为均相催化剂催化乙烯聚合及共聚合的最新研究,归纳思路包括不同的金属类型,即基于前过渡金属(Zr, Ti, Hf) 和后过渡金属(Ni, Fe, Co) 的双核金属组合; 不同的配体化合物,即CGC配体、酚氧亚胺配体、氮杂环胺配体、α-二亚胺和亚胺吡啶配体等。这些研究表明,前过渡金属催化剂不仅解决了乙烯自聚还实现了乙烯与α-烯烃共聚;后过渡金属催化剂高效催化乙烯自聚合,其中铁和钴催化剂获得高度线性聚乙烯,镍催化剂则产生多支链聚乙烯。     

不同配体的稀土金属配合物在烯烃聚合领域的研究进展

催化剂在推动聚烯烃工业发展中有着举足轻重的作用,其中金属催化剂的设计与合成更是金属有机催化化学的关键.稀土金属具有独特的轨道结构、反应活性和配位准则,因此稀土金属配合物通过在金属中心周围引入空间位阻,在聚烯烃材料制备中表现出独特优势.其中配体是决定稀土金属配合物的结构、化学活性及稳定性等方面的关键因素.本综述介绍了茂基配体(烷基取代、芳基取代、茚和芴配体)和非茂基配体(大环四齿配体、三齿配体、双齿配体和单齿配体)的稀土金属配合物的发展及其在聚烯烃制备中的应用.这项工作旨在促进稀土金属催化剂在聚烯烃催化和金属有机催化领域的研究,为高端化、差异化聚烯烃聚合催化剂的制备提供新的设计思路和研究方法.     

过渡金属酸盐在催化反应中的应用

过渡金属酸盐因其催化性能优良、价格低廉、容易获得、毒性低、稳定性良好等特点,成为广受关注的一类催化剂。金属酸盐是指一类含有配合物阴离子的离子型化合物,其配合物阴离子包括中心金属和与其相配位的多个配体基团:中心金属为过渡金属元素,配体为氧离子(金属氧酸盐,如WO₄^2-, PMo₁₂O₄₀^3- 等)、硫离子(硫代金属酸盐,如MoS₄^2- 等)或卤素离子(卤代金属酸盐,如PtCl₆^2-, TiF₆^2-等)。通过改变中心过渡金属元素和抗衡阳离子的组成,可在分子水平上对金属酸盐进行性能调控。但过渡金属酸盐在催化领域中的研究多集中于金属氧酸盐,本综述则涵盖了包括金属氧酸盐、硫代金属酸盐、氰基金属酸盐和卤代金属酸盐等多种过渡金属酸盐作为催化剂在催化反应中的应用。另外,本文还着重介绍了过渡金属酸盐催化剂与离子液体结合使用,从而实现其循环使用的研究。     

后过渡金属配合物催化乙烯齐聚与聚合的研究进展

后过渡金属配合物催化乙烯齐聚和聚合研究,不仅拓展了后过渡金属配合物的应用 ,而且为探求烯烃聚合催化剂提供了新机遇,成为当前催化研究中的热点课题.本文综述了后过渡金属铁、钴、镍配合物催化乙烯齐聚和聚合的国内外最新研究进展.     

过渡金属乙烯齐聚与聚合催化剂研究进展

综述了近年来过渡金属配合物催化乙烯齐聚与聚合的最新进展;介绍了乙烯齐聚或聚合的反应时间、反应温度、乙烯压力、助催化剂用量等反应条件及配体上不同取代基对前过渡金属(铬,锆,钛,钒)和后过渡金属(铁,钴,镍,铜)配合物的催化活性和齐聚或聚合产物的影响;分别以钛和镍配合物催化剂为例,介绍了前过渡金属和后过渡金属催化乙烯齐聚或聚合的机理。     

后过渡金属催化乙烯齐聚与聚合进展

石化工业最重要的产品是聚烯烃,其中大部分与聚乙烯相关,α-烯烃不仅是重要的共聚单体,也是精细化工的基本原料,乙烯工业发展程度代表了一个国家石化技术的水平。后过渡金属催化剂作为新型催化体系,能够高效催化乙烯齐聚和聚合,并且乙烯聚合可制备新型聚乙烯树脂。通过对配体的修饰,提高后过渡金属配合物催化活性,增加催化体系的热稳定性,仍然是当前催化剂设计的重要课题;实现对所得聚乙烯微观结构的控制,提高聚烯烃宏观性质是产业化的重要基础。本文基于配合物催化剂配体骨架设计为基础,集中讨论了铁、钴和镍配合物用于乙烯聚合和齐聚的性质比较;特别是集中展示了我们近期研究工作,综述了后过渡金属催化剂的新进展。     

手性环戊二烯过渡金属配合物在不对称催化反应中的应用

手性环戊二烯配体作为不对称催化反应中的立体控制元素受到金属有机工作者的关注,尤其是设计合成更多通用的手性环戊二烯基配体成为了不对称催化领域的研究中心之一.综述了近年来发展出的各种手性环戊二烯配体与不同过渡金属的配合物,以及这些配合物在催化不对称反应方面的进展.     

离子型膦配体及其离子型过渡金属配合物的合成和均相催化作用

与传统中性叔膦配体构建的过渡金属配合物相比,由离子型膦配体配位构建的过渡金属配合物具有典型的离子盐组成特点、独特的电子效应和几何构型。该类配合物中,不仅存在金属和配体间的配位作用,还存在正电荷的强吸电子效应和阴阳离子的静电作用,由此可以产生独特的催化性能。近年来,离子型过渡金属配合物的合成及其均相催化应用成为配位化学和均相催化研究中备受关注的领域。离子型过渡金属配合物的离子盐结构,使其在与室温离子液体溶剂结合使用时,离子型离子配体及其配合物能够严格被锁定在离子液体相,具有避免离子型离子配体及其配合物的流失、抑制其失活、并实现循环使用的优点,也成为均相催化固载化的绿色方法之一。本文综述了近十年发展的一类咪唑鎓基与膦配体中的磷原子毗邻的离子型膦配体的合成,及其相应Rh、Pd、Ru、Pt、Au、Ni、Cu等离子型配合物的构建,并介绍了它们在均相催化反应中的应用。     

A carbanion induced synthesis of highly congested pyrazole and imidazole containing heterocycles

An efficient approach to the synthesis of highly congested di, penta and hexacyclic pyrazoles as well as imidazole fragment containing novel heterocyclic molecule has been developed through a carbanion induced transformation of suitably functionalized 2H-pyran-2-ones, benzo[h]chromene and thiochromeno[4,3-b]pyrans. Due to the presence of fluorescence, we report their prime application metal sensor as off/on switching in ferric ions.     

α-Amino acid derived enaminones and their application in the synthesis of N-protected methyl 5-substituted-4-hydroxypyrrole-3-carboxylates and other heterocycles

A new and simple synthesis of novel N-protected methyl 5-substituted-4-hydroxypyrrole-3-carboxylates, which exist in equilibrium with their 4-oxo tautomers, has been developed in two steps starting from N-protected α-amino acids. The key intermediates are enaminones, which can also be isolated, characterized, and used for the construction of other functionalized heterocycles, before they spontaneously decompose to pyrrole products. 4-Hydroxypyrroles are prone to partial aerial oxidation but can be efficiently alkylated or reduced to stable polysubstituted pyrrolidine derivatives.     

Specific intramolecular aromatic CH insertion of diazosulfonamides

The chemoselectivity in the intramolecular CH insertion of various diazosulfonamides has been experimentally studied. The results reveal that the aliphatic 1,4-, 1,5-, or 1,6-C(sp³)?H insertions of diazosulfonamides are not accessible, while the aromatic 1,5-C(sp²)?H insertion can be realized specifically by adjusting the diazo-adjacent group. In addition, the general chemoselectivities in the intramolecular CH insertions of diazosulfonyl compounds are summarized. Generally, diazosulfones undergo both aromatic 1,5-C(sp²)?H and aliphatic 1,5- and 1,6-C(sp³)?H insertions, while diazosulfonates undergo aliphatic 1,5- and 1,6-C(sp³)?H insertions. However, diazosulfonamides only undergo aromatic 1,5-C(sp²)?H insertion.     

N-Heterocyclic carbene-palladacyclic complexes: synthesis,characterization and their applications in the C-N coupling and α-arylation of ketones using aryl chlorides

N-Heterocyclic carbene-palladacyclic complexes 3 were successfully achieved in a one-pot procedure under mild conditions. The structure of 3a was unambiguously confirmed by X-ray single crystal diffraction and it was an active catalyst in the Buchwald-Hartwig amination and α-arylation of ketones even at very low catalyst loadings (0.01?mol%).     

Selective synthesis of 4,5-dihydroimidazo- and imidazo[1,5-a]quinoxalines via modified Pictet–Spengler reaction

An efficient tandem approach for the selective synthesis of 4,5-dihydroimidazo[1,5-a]quinoxalines 6a–g and imidazo[1,5-a]quinoxalines 7a–h by the reaction of 2-imidazolyl anilines 4a–c with aryl aldehydes 5a–k under mild reaction conditions is described. Introduction of electron releasing alkyl groups in substrates 4a–b was found to be instrumental for the success of the reaction.     

Understanding the Diels-Alder reactivity of 1,2-azaborine analogues

The Diels-Alder reactivity of 1,2-heteroborines (H₄C₄B(H)X, X?=?NH, PH, AsH; O, S, Se) has been computationally explored by means of Density Functional Theory (DFT) calculations. The influence of the HB?=?X fragment on the reactivity of the system has been quantitatively analyzed in detail by means of the so-called Activation Strain Model (ASM) of reactivity. It is found that the interaction between these species and the dienophile is significantly stronger than that computed for their all-carbon isoelectronic counterpart, benzene. In addition, the strain energy plays a key role in the observed reactivity trends. The role of the aromaticity strength of these heteroarenes on the reactivity is also assessed.     

Synthesis of N-substituted carbazolones from α-iodo enaminones via Pd(0)-catalyzed intramolecular coupling under microwave irradiation

A variety of N-aryl and N-alkyl carbazolones were conveniently achieved in good to high yields via Pd₂(dba)₃-mediated intramolecular coupling of N-substituted α-iodo enaminones under microwave irradiation. The Pd(0)-catalyzed cyclization was found to proceed favorably with the more electron-deficient phenyl ring during the reactions involving unsymmetrical N,N-diaryl α-iodo enaminones. This unique property enables the construction of carbazolone skeleton containing nitro substituted benzenoid ring.     

Iodine-mediated oxidative Pictet-Spengler reaction using terminal alkyne as the 2-oxoaldehyde surrogate for the synthesis of 1-aroyl-β-carbolines and fused-nitrogen heterocycles

An efficient iodine-mediated oxidative Pictet-Spengler reaction in dimethyl sulphoxide (DMSO) using terminal alkynes as the 2-oxoaldehyde surrogate for the synthesis of aryl (9H-pyrido[3,4-b]indol-1-yl)methanones is described. The scope of the protocol includes the total synthesis of Fascaplysin, Eudistomins Y₁ and Y₂. The methodology is extended for preparing pyrrolo[1,2-a]-quinoxaline and indolo[1,5-a]quinoxaline derivatives. The utility of 1-aroyl-β-carbolines was demonstrated by performing palladium-catalyzed β-carboline directed ortho-C(sp2)-H functionalization of the phenyl ring with thiomethyl (SMe) group using DMSO as source and for accessing 4-aryl-canthin-6-ones.     

Facile synthesis of bicyclic 1-arylpyrazol-5-ones

In this Letter, we described a facile method for constructing fused bicyclic 1-arylpyrazol-5-one ring system. We employed various methylene-containing carboxylic acids as the substrates and proved that the pyrazolone ring closure requires activated methylene group in intermediate II. Accordingly, a series of structurally diversified, fused bicyclic 1-arylpyrazol-5-ones was prepared in moderate to high yields using the requisite substrates.     

Synthesis of substituted 2,4,5,6-tetrahydrocyclopenta[c]pyrazoles and 2,4,5,6-tetrahydropyrrolo[3,4-c]pyrazoles by intramolecular nitrilimine cycloaddition

Both substituted 2,4,5,6-tetrahydrocyclopenta[c]pyrazoles and 2,4,5,6-tetrahydropyrrolo[3,4-c]pyrazoles have been synthesized by the 3+2 intramolecular dipolar cycloaddition of nitrilimines to alkynes. This cyclization has been extended to more versatile 3-bromo derivatives by the use of alkynylbromides as dipolarophiles.