硫酸盐水合物催化下的有机合成及反应

报道了在硫酸盐水合物催化下的酯化反应、酯交换反应、δ-酮酸环合反应、羟醛缩合反应、酮的烯醇化反应、缩醛酮反应、呐咵重排反应及醇脱水反应。研究了硫酸盐水合物的催化活性及催化反应动力学,对这一类型反应的反应机理进行了探讨,证明反应是配位催化过程。     

反应类等键反应方法及类反应热动力学参数计算

本文提出了反应类等键反应方法,将通常用于热力学性质计算的等键反应方法推广用于类反应中反应势垒和反应焓变的计算. 对碳氢燃料低温燃烧反应机理中的一类重要反应类：?烷基自由基过氧化氢裂解生成烯烃和HO2自由基的反应势垒和反应焓变进行了计算. 通过对该类16个反应中的5个代表反应分别在不同计算水平HF、DFT、MP2、CCSD(T)的比较计算发现,采用等键反应方法可在较低从头算级别计算得到类反应较高精度的反应势垒,提高了计算的效率和精度. 本文采用反应类等键反应方法在B3LYP/6-311G(d,p)计算水平对该类16个反应进行了反应势垒和反应焓变的计算,并建立了反应势垒和反应能的线性自由能关系：delta V=71.02+0.41?delta E.     

连续流微反应

近几个世纪,传统釜式反应为我们解决了大量化工产品需求的问题。但其本身存在着很多的缺点,如安全隐患、环境污染、能源消耗巨大、占地面积大以及工艺放大困难等。连续流微反应以其高效的传质传热、精确控温控时、安全稳定、无放大效应以及反应的实时监控等优点,能很好地解决传统釜式反应存在的问题。本文对连续流微反应在最近五年的研究进展进行了概述,特别对连续流中的硝化反应、叠氮基丙烯酸酯的热解反应、格氏反应与类格氏反应、偶联反应、胺化反应、氧化还原反应、缩合反应、环化反应、多步骤反应及常用连续流微反应器进行了介绍。同时,对连续流微反应的优缺点进行了简要评述。     

4-甲氧基-7H-呋喃[3,2-g][1]苯并吡喃-7-酮制备的新方法

以间苯三酚为起始原料,通过醚化反应、碘化反应、Pechmann反应、偶联反应、水解反应和脱羧反应合成了目标产物4-甲氧基-7H-呋喃[3,2-g][1]苯并吡喃-7-酮。经红外光谱、质谱、核磁共振测试技术对各化合物的结构进行了表征。优化了醚化反应和碘化反应的工艺条件,并探索了通过选择性碘化反应、Pechmann反应和偶联反应来合成目标化合物的可行性。反应均在常压下进行,反应条件温和,后处理相对简单,为呋喃香豆素类化合物的制备提供了新方法。     

化学反应的内禀反应坐标法I:甲硫醛脱氢反应的IRC解析

本文用内禀反应坐标法讨论了甲硫醛分子的脱氢反应机理. 在4-31G基组上对此反应做了量子化学从头计算和反应路解析, 得出过渡态结构, 反应势能曲线, 活化能, 反应热以及沿反应坐标反应系的一些物理量的变化, 并对过渡态做了振动分析. 所得结果与甲醛,甲硫醇和甲醇等分子的脱氢反应结果做了对比. 还给出沿反应坐标分子间弹性碰撞阶段和最佳碰撞角等信息. 同时, 计算了反应的频率因子A,讨论了反应速率常数k值与温度的关系.     

脯氨酸催化的不对称有机反应

脯氨酸作为一种结构简单、商品化的、廉价小分子手性催化剂,在多种不对称催化反应中表现出非常好的催化性能,本文综述了近年来脯氨酸直接催化的不对称有机反应涉及Aldol反应,Mannich反应,Michael反应,Diels-Alder反应,直接α-胺化反应,α-氧胺化反应,Baylis-Hillman反应,还原反应和氧化反应的进展并展望了其应用前景。     

Keggin杂多酸负载型催化剂研究及在有机合成中的应用

评述了负载型杂多酸Keggin结构催化剂的制备、表征及其表面作用机理, 阐述了在非均相催化酯化反应、Friedel-Crafts烷基化和酰基化反应、选择氧化、不对称催化反应、异构化反应、缩合反应、裂解反应、水合反应、脱水反应、水解反应、重排反应、Diels-Alder反应及醚化反应等作为探针反应的催化性能, 总结了重排反应、醇氧化等不同类型催化反应的反应机理和催化剂失活的主要原因以及影响负载型催化剂水热稳定性能的因素, 指出了负载型杂多酸Keggin结构催化剂研究中有待解决的问题及今后的发展方向..     

Ni催化的碳(sp2)-碳和碳(sp2)-杂交叉偶联反应

综述了Ni催化的碳(sp²)-碳和碳(sp²)-杂交叉偶联反应. 主要反应类型有: Heck反应、Sonogashira反应、Kumada-Corriu反应、Negishi反应、Stille反应、Suzuki反应、Ullmann反应、C—N偶联反应、C—O偶联反应、C—P偶联反应和C—S偶联反应. 详细地介绍了各个反应的底物要求、反应条件、反应选择性和产率. 最后, 我们对Ni催化的反应机理研究也作了总结.     

微波促进离子液体相反应在有机合成中的应用

微波促进离子液体相有机合成技术作为一种新型的绿色化学合成法,引起了人们极大的兴趣。在离子液体中,微波辅助下反应快速、收率高、选择性好、后处理简单,离子液体经简单再生后可多次套用。本文综述了以离子液体为反应介质或催化剂的微波辅助技术在多种类型有机反应中的研究成果,主要包括了环合反应、亲核取代反应、金属复分解反应、酰化反应、重排反应、聚合反应、偶联反应、氧化还原反应和选择性脱溴反应等。     

苯胺和乙二醇生成吲哚反应机理的DFT理论研究

利用传统过渡态理论研究了苯胺和乙二醇生成吲哚反应的机理,设计了四种可能的反应通道.优化计算了反应物、产物和每个通道中可能的中间体和过渡态的几何构型,找出并确认了每个反应通道中各基元反应的可能过渡态和活化能.经分析对比给出该反应可能的主反应通道.同时初步探讨了在经过渡态TS1的基元反应中加入催化剂Ag后的反应机理.加入催化剂后,反应的活化能降低.     

若干羰基化反应研究新进展

 直接在化合物分子内引入羰基的羰基化反应是当前绿色化学化工研究的前沿领域之一, 也是实现 C1 资源高值化利用的重要途径. 综述了胺/氨基醇类化合物氧化羰化、环氧化合物氢酯基化、碘代芳烃的羰化 Suzuki 偶联、羰化 Sonogashira 以及双羰基化等重要羰基化反应的研究状况, 特别是结合本课题组近年来在该领域中的工作, 并对羰基化反应的发展及应用前景进行了展望.     

Sequential palladium-catalyzed coupling reactions on solid-phase

Six-types of palladium-catalyzed coupling, Mizoroki-Heck, Migita-Stille, Sonogashira, carbonylative esterification, carbonylative Stille, and carbonylative Sonogashira reactions, were performed on a polymer support. The above coupling reactions of m- and p-substituted aromatic rings, followed by carbonylative esterification with m- and p-substituted anisol derivatives were carried out in a combinatorial manner. Acid cleavage from the polymer-support provided the conjugated aromatic ring systems 1 and 2, which are the core parts of rodlike liquid crystals.     

Iridium‐Catalyzed Carbonylative Synthesis of Chromenones from Simple Phenols and Internal Alkynes at Atmospheric Pressure

A novel procedure on the carbonylative synthesis of chromenones has been developed. With simple phenols and internal alkynes as the substrates, various chromenones were isolated in moderate to good yields with excellent regioselectivity and functional‐group tolerance by using iridium as the catalyst and copper as the promotor at atmospheric pressure. Notably, this is the first example on carbonylative annulation of simple phenols and alkynes.     

Ruthenium-catalyzed carbonylative cycloaddition of alpha-keto lactones with alkenes or alkynes: the participation of an ester-carbonyl group in cycloaddition reactions as the two-atom assembling unit

The reaction of benzofuran-2,3-dione derivatives 1 with CO and alkenes (or alkynes) results in a carbonylative [2+2+1] cycloaddition in which the ester-carbonyl group is incorporated into a two-atom assembling unit to give spirolactone derivatives 2. This reaction provides the first example of an ester-carbonyl group participating in a carbonylative cycloaddition reaction.     

Facile Access to Sterically Hindered Aryl Ketones via Carbonylative Cross-Coupling: Application to the Total Synthesis of Luteolin

A general and mild protocol for achieving the carbonylative cross-coupling of sterically hindered, ortho-disubstituted aryl ketones is reported. The commercially available PEPPSI-IPr catalyst is shown to efficiently promote the carbonylative cross-coupling of hindered ortho-disubstituted aryl iodides to give diaryl ketones; traditional phosphine catalysts are less effective. Carbonylative Suzuki-Miyaura cross-couplings provide a diverse array of biaryl ketones in good to excellent yields. The same catalyst is also shown to catalyze a carbonylative Negishi cross-coupling reaction, utilizing a variety of alkynyl-zinc reagents to give the corresponding alkynyl aryl ketones. Application of this new methodology to the synthesis of the natural product luteolin is reported.     

Transition Metal‐Catalyzed Carbonylative CH Bond Functionalization of Arenes and C(sp3)H Bond of Alkanes

In this article, we present the progress made in the area of carbonylative C? H functionalization, with special emphasis on arenes and alkanes. The importance of directing group assistance and C? H functionalization using CO surrogates is also included. The budding development in the area of transition metal‐catalyzed C(sp³)? H activation makes us feel it necessary to file a summary on the past, as well as current, contributions and a prospective outlook on the transition metal‐catalyzed carbonylative transformation of C? H bonds, which is the focus of this review.     

Carbonylative cross-coupling of ortho-disubstituted aryl iodides. convenient synthesis of sterically hindered aryl ketones

A mild and general protocol for the carbonylative cross-coupling of sterically hindered ortho-disubstituted aryl iodides is reported. Carbonylative Suzuki-Miyaura couplings of a variety of aryl boronic acids provide an array of substituted biaryl ketones in modest to excellent yield. A carbonylative Negishi coupling that utilizes alkynyl nucleophiles is also described.     

Efficient palladium-catalysed carbonylative and Suzuki-Miyaura cross-coupling reactions with bis(di-tert-butylphosphino)-o-xylene

The use of the ligand bis(di-tert-butylphosphino)-o-xylene (dtbpx) in palladium-catalysed carbonylative and Suzuki-Miyaura cross-coupling reactions is described. Aryl and vinyl halides readily entered into the carbonylative catalytic cycle affording carboxylic acids, amides as well as primary, secondary and tertiary esters, respectively, in good yields. Aryl iodides, bromides and chlorides gave high yields of biphenyl products upon reaction with both activated and unactivated boronic acids.     

Palladium‐Catalyzed Reductive [5+1] Cycloaddition of 3‐Acetoxy‐1,4‐enynes with CO: Access to Phenols Enabled by Hydrosilanes

A new palladium‐catalyzed reductive [5+1] cycloaddition of 3‐acetoxy‐1,4‐enynes with CO, enabled by hydrosilanes, has been developed for delivering valuable functionalized phenols. This methodology employs hydrosilanes as the external reagent to facilitate the [5+1] carbonylative benzannulation. The reaction is a conceptually and mechanistically novel carbonylative cycloaddition route for the construction of substituted phenols, through the formation of four new chemical bonds, with excellent functional‐group tolerance.     

Cycloadditions of 1-iminylphosphirane complexes with allenes

A cascade carbonylative ring expansion and [2+2]/[4+2] cycloaddition of strained 1-iminylphosphirane complexes with aryl allenes were reported.The carbonylative ring expansion of 1-iminylphosphirane complexes provides an azaphosphacyclohexone complex intermediate with a C=P double bond.The following [2+2] or dearomatic [4+2] cycloaddition of this intermediate with allenes is modulated by the aryl substituents on the imino carbon.The regioselective [2+2] cycloaddition with 1,1-diarylallene provides an entry to bicyclo[4.2.0]octan-4-one skeletons featuring a four-membered phosphacyclobutane moiety.While dearomatic [4+2] cycloaddition was preferred with less aromatic naphthalene and yielded octahydrochrysene skeleton containing heteroatoms.