NEW HETEROCYCLIC SYSTEM SYNTHESIS I REACTION OF DIHYDRO-1,5-BENZO-DIAZEPINES AND THIAZEPINES WITH (ETHOXYCARBONYL)CARBENES

Dihydro-1-benzoyl-1,5-benzodiazepines react with (ethoxycarbonyl)carbenes to give 4H-azirino-[1,2-a][1,5]-benzodiazepines and unexpected new tin9 system 1H-pyrrolo-[1,2-a][1,5]-benzodiazepines. Dihydro-1,5-benzothiazepines react with (ethoxycarbonyl)carbenes in cyclohexane to gire unexpected rin9 cleavage products ethyl (2E, 4E)-3-aryl-2-arylthiohexadienoates.

功能化氮杂环卡宾聚合树脂对Cu^(2+)的吸附研究

该研究制备了功能化氮杂环卡宾聚合树脂(PNO),旨在去除废水中Cu^(2+);基于静态和动态吸附实验,研究了PNO对废水中Cu^(2+)的吸附效果。结果表明:PNO对Cu^(2+)的最佳吸附条件为吸附剂投加量100 mg、吸附时间30 min、pH值4.0~5.9、温度298 K、转速150 r/min,最大吸附量为51.55 mg/g。PNO对Cu^(2+)的吸附过程符合Langmuir、Freundlich等温吸附模型和准二级动力学模型。动态吸附量随柱高增加、流速降低和进水Cu^(2+)浓度增加而增大。使用Thomas和Bohart-Adams模型拟合,相关系数R^(2)均大于0.92,预测值与实验值相符。经过5次静态吸附-解吸和3次动态循环再生后,PNO对Cu^(2+)的去除率仍达到第一次循环的96%以上,去除效果和再生性能良好。PNO对含铜废水高效处理具有广泛的应用前景。

NHC-Ag修饰的钐配合物催化CO_(2)与端炔的羧化反应

将1,3-二(4-羧基苯甲基)-苯并咪唑氯化物(H_(2)BCBI)与Sm(NO_(3))3•6H_(2)O在水热条件下进行反应,得到了二维配位聚合物[Sm(BCBI)(NO_(3))2•H_(2)O]n(Sm-BCBI),将其与乙酸银(AgOAc)作用引入氮杂环卡宾(NHC)-Ag(Ⅰ)催化位点,制备了氮杂环卡宾-银功能化的钐配合物[NHC-Ag(Ⅰ)@Sm-BCBI]。通过单晶X射线衍射仪、PXRD、TGA、XPS、电感耦合等离子发射光谱仪、SEM和EDS对Sm-BCBI和NHC-Ag(Ⅰ)@Sm-BCBI进行了表征,考察了NHC-Ag(Ⅰ)@Sm-BCBI催化CO_(2)(0.1MPa)与苯乙炔(1.0mmol)羧化反应的最佳条件,考察了底物的拓展性。结果表明,Sm-BCBI为二维层状结构;NHC-Ag(Ⅰ)@Sm-BCBI具有良好的热稳定性,且其中的银以+1价形式存在。在反应温度为50℃、以Cs2CO_(3)(1.5 mmol)为碱、N,N-二甲基甲酰胺为溶剂,NHC-Ag(Ⅰ)@Sm-BCB用量70 mg、反应时间为16h的最佳条件下,苯丙炔酸分离产率可达80%。催化剂易回收,循环使用5次后,苯丙炔酸分离产率仍能达到57%。

咪唑鎓盐基材料电催化二氧化碳还原研究进展

随着化石能源的使用日益增加,大气中CO_(2)的浓度不断上升,给环境带来了挑战。通过催化将CO_(2)转化为高附加值化学品为解决这些问题提供了一个机会,并为燃料合成开辟了一条新的途径,最终有助于减少CO_(2)排放并实现碳中和。在众多的方法中,利用可再生清洁能源进行CO_(2)电还原反应(CO_(2)RR)以其反应条件温和、反应进度可控、环境友好以及可以产生大量的附加值产品而受到重视。在此背景下,咪唑鎓基材料及其衍生物已成为CO_(2)RR的有潜力的候选材料。这些材料对CO_(2)有很强的亲和力,并且在CO_(2)RR系统中作为电解质和电催化剂都有应用。所以它们的主要优点之一是能够在催化体系中富集CO_(2),有效地抑制析氢副反应(HER),并提高CO_(2)RR产物的选择性。了解电催化条件下咪唑鎓基离子液体(Im-ILs)与CO_(2)分子之间的相互作用机制对于从分子角度深入了解为什么添加Im-ILs可以改善CO_(2)RR性能至关重要。此外在非均相电催化剂中,Im-ILs作为表面修饰基团和捕集剂,可以显著改变催化剂的表面环境和疏水性,从而促进CO_(2)RR。值得注意的是,Lehn型和金属卟啉分子催化剂中的咪唑鎓基团已被发现对这些催化剂在CO_(2)RR中的性能有影响。N-杂环卡宾(NHC)基电催化剂作为咪唑鎓与CO_(2)相互作用的活性形式之一,表现出优异的CO_(2)RR性能。将NHC基电催化剂引入多孔多相催化剂和分子催化剂中,可以稳定金属纳米颗粒,提高捕获CO_(2)的能力,从而提高CO_(2)RR活性。总之,在CO_(2)RR中使用咪唑鎓基材料对于推进CO_(2)转化,实现可持续、有效合成高附加值化学品具有巨大的前景。

氮杂环卡宾催化醛与亚硝基化合物的酰胺合成

酰胺合成是有机化学重要的研究方向之一。将国际前沿的酰胺合成方法引入到基础有机化学实验教学中可以丰富教学内容并促进本科教学与科研成果之间的融合。本文报道了一个以氮杂环卡宾催化醛的极性反转为知识重点的酰胺合成实验,以苯甲醛、亚硝基苯为原料,在无水无氧条件下实现了N-羟基-N-苯基苯甲酰胺的高效合成。该实验利用薄层色谱对反应过程进行监测,并通过红外、核磁共振波谱确定了产物结构。该实验具有操作简单、反应条件温和、高原子经济性、可重复性好等特点,非常适用于本科生实验教学。本实验将极性反转这一重要概念与氮杂环卡宾催化这一科学前沿有机结合起来,有利于激发和培养学生的科研兴趣。

卡宾在聚合物交联反应中的研究进展

归纳分析了三氟甲基类卡宾化合物、重氮酯类卡宾化合物、N-杂化卡宾化合物等稳定结构的卡宾前驱体的结构、性能特点,并重点介绍了其在聚合物改性领域的应用研究进展。

金属卡宾模板导向的多咪唑鎓盐大环合成

本文报道了一种共价有机大环化合物的高效合成方法。利用双咪唑鎓盐H_(2)‐L1(BF_(4))_(2)(L1=A1,B1)和氧化银反应,生成双核银卡宾大环化合物[Ag_(2)(L1)_(2)](BF_(4))_(2)(L1=A1,B1),其中连接在2个卡宾配体上的端烯取代基分别排列在环的两侧。随后,通过金属卡宾模板导向的烯烃复分解反应进行关环,制备得到闭环的双核银卡宾大环化合物[Ag_(2)(L2)](BF_(4))_(2)(L2=A2,B2)。最后,移除模板银离子即可得到拥有空腔结构的共价有机大环化合物H_(4)-L2(BF_(4))_(4)(L2=A2,B2)。此类多咪唑鎓盐大环的尺寸和形状可以通过改变氮杂环卡宾前驱体连接单元的长度或者宽度进行精细调节。初步研究表明,该大环受体在碘离子的传感、检测和识别方面具有潜在的应用前景。

Operationally Simple Enantioselective Silane Reduction of Ketones by the [Ir(OMe)(cod)]2/Azolium Catalytic System

An operationally simple protocol was designed for the enantioselective silane reduction (ESR) of ketones using air- and moisture-stable [Ir(OMe)(cod)]2 (cod = 1,5-cyclooctadiene) (3) as a metal catalyst precursor. This reaction was driven by chiral hydroxyamide-functionalized azolium salt 2. The catalytic ESR reaction could be performed under benchtop conditions at room temperature. Treatment of 2 with 3 in THF yielded the monodentate IrCl(NHC)(cod) (NHC = N-heterocyclic carbene) complex 4 in 93% yield, herein the anionic methoxy ligand of 3 serves as an internal base that deprotonates the azolium ring of 2. The well-defined Ir complex 4 catalyzed the ESR reaction of propiophenone (6) with (EtO)2MeSiH using the pre-mixing reaction procedure. Based on this success, the catalytic ESR reaction was designed and implemented using an in situ-generated NHC/Ir catalyst derived from 2 and 3. Thus, a wide variety of aryl ketones could be reduced to the corresponding optically active alcohols in moderate to excellent stereoselectivities at room temperature without temperature control. Since the high catalytic activity of 3 was observed, we next evaluated several other transition metal catalyst precursors for the catalytic ESR reaction under the influence of 2. This evaluation revealed that Ir(acac)(cod) (acac = acetylacetonate) (28) and [IrCl(cod)]2 (5) can be successfully used as metal catalyst precursors in the ESR reaction.

氮杂环卡宾-铁配合物催化碳-碳偶联反应的研究进展

作为传统贵金属催化剂的理想替代品,铁具有来源广泛、毒性低和环境兼容性好等特点,目前被用于多种环境友好的催化过程。近年来,氮杂环卡宾(NHC)由于其独特的空间和电子性质,常作为配体,不仅能够被应用于贵金属(如钯、镍和铑等)催化,在铁催化中也得到了广泛的应用。本文综述了氮杂环卡宾及铁配合物催化剂的特点,并重点讨论了近十年其催化的碳-碳偶联包括芳基-芳基交叉偶联、芳基-烷基交叉偶联、烷基-烷基交叉偶联等反应中的研究进展。

氮杂环卡宾与过渡金属协同催化反应研究进展

在有机化学反应中,过渡金属和有机小分子催化剂联合催化反应为构建复杂结构分子提供了强有力的策略。根据催化剂的作用方式以及加料的顺序不同,可分为协同催化、串联/序列催化。随着对氮杂环卡宾催化反应的不断深入研究,氮杂环卡宾与Br?nsted酸/碱,Lewis酸串联/序列催化或协同催化得到了迅速发展,实现了反应选择性、对映选择性及非对映选择性的精准调控。目前,氮杂环卡宾在与钯、钛、铜和钌等过渡金属协同催化反应中取得了重要进展,该类反应可被用于一些手性活性分子、生物医药小分子等骨架的构建,具有潜在的应用价值及发展前景。

基于α-苯基重氮酯的卡宾型染料的合成及其对氨纶的染色性能

为提升分散染料染色氨纶的色牢度,在偶氮染料结构中引入α-苯基重氮酯结构,合成3支新型卡宾型染料,用该类染料对氨纶进行染色,并测试了上染率、色深、固色率和色牢度等性能参数。结果表明:3支卡宾型染料通过高温处理即可牢固结合在纤维上,在无外界环境干扰情况下,染色氨纶最高固色率可达80.7%~96.3%;优化的水相染色法工艺条件为在95℃染色45 min,再在130℃固色30 min,在该条件下,所得染色氨纶的固色率能达到50.6%~80.7%,耐皂洗、耐摩擦和耐升华色牢度可达4级及以上,颜色迁移率为6.2%~8.9%。采用卡宾型染料对氨纶进行的反应性染色研究结果为完善氨纶的高色牢度染色技术提供了有益参考。

A New Rearrangement Reaction of 2-Phenyl Substituted Benzothiazepine with Ethoxycarbonyl Carbene─Mechanism of the Reaction and Structure of the Product

2,3-Dihydro-2-phenyl-4-(4-methoxyphenyl)-1, 5-benzothiazepine reacts with ethoxycarbonyl carbene to give an unexpected compound 2,3-disubstituted-4H-1,4-benzothiazine Ⅲ. It was found to be a new rearrangement reaction and the structure of the product was confirmed by IR, NMR, MS.

Synthesis and Crystal Structure of a Novel Bis(ethoxycarbonyl)glycoluril Macrocycle

A novel [2＋4＋2]-macrocyclic compound 3（C52H69N16O12, Mr = 1109.53） con- taining bis（ethoxycarbonyl）glycoluril groups was synthesized via the Mannich three-component reaction in one pot and its structure was characterized by single-crystal X-ray diffraction. It crystallizes in triclinic, space group P1 with a = 10.077（3）, b = 10.642（3）, c = 15.324（5） , α = 96.704（5）, β = 102.304（5）, γ = 104.546（5）°, Z = 2, V = 1528.7（8）3, Dc = 1.283 g/cm3, μ = 0.097 mm-1, F（000） = 628, R = 0.0818 and wR（I 〉 2σ（I）） = 0.2346 for 3034 observed reflections.

OXIDATIVE ETHOXYCARBONYLATION OF ANILINE TO ETHYL PHENYLCARBAMATE CATALYZED BY SILICA- SUPPORTED POLY-γ-AMINOPROPYLSILOXANEMETAL COMPLEXES

Several silica-supported poly-γ-aminopropylsiloxane-monometal and bimetal complexes (Si-NH_2-M,M = Cu or Co ; Si-NH_2-Cu-M', M' =Co, Sn, Mn, Ni or Fe) have been prepared. Their catalytic properties for oxidative ethoxycarbonylation of aniline to ethyl phenylcarbamate have been investigated.The catalytic reaction was carried out under relatively mild conditions. The catalyst Si-NH_2-Cu-CO had high activity and selectivity, and the turn-over number (molar of aniline converted/molar of metal in Si-NH_2-Cu-CO added) could amount to 450 under the conditions: 150℃ , 4 MPa (CO/O_2 =3) and 40 hours.The results of XPS and IR indicated that the coordination bonds were formed between nitrogen and metals in Si-NH2-Cu, Si-NH_2-Co and Si-NH_2-Cu-Co, and the coordination pattern was not single. In the oxidative ethoxycarbonylation of aniline to ethyl phenylcarbamate, the catalytic property of Si-NH_2-Cu-CO bimetallic complex was better than Si-NH_2-Cu or Si-NH_2-Co monometatlic complex. This indicated that there as synergistic action between different metals in the bimetallic complex.

Synthesis of ethoxycarbonyl isothiocyanate by orthogonal design

Using Schiff base as a phase transfer catalyst,ethoxycarbonyl isothiocyanate was synthesized by reacting ethyl chloroformate with sodium thiocyanate.In order to get the best synthetic technology,an orthogonal test(L9(34)) was applied.The results show that reaction temperature,reaction time,content of catalyst and molar ratio of sodium thiocyanate to ethyl chloroformate are the main factors influencing the yield.The four factors chosen for the present investigation are based on the results of a single-factor test.The optimum synthetic technology is determined as follows:reaction temperature 35 °C,reaction time 3 h,the content of catalyst(molar fraction based on ethyl chloroformate) 1.5% and molar ratio of sodium thiocyanate to ethyl chloroformate 1.1.Under the optimized synthetic technology,the experimental yield reaches 96.8%.

Synthesis and In Vitro Antiviral Activities of Some New 2-Arylthiomethyl-4-tertiaryaminomethylsubstituted Derivatives of 6-Bromo-3-ethoxycarbonyl-5-hydroxyindoles

Some new derivatives of 3-ethoxycarbonyl-6-bromo-5-hydroxyindoles were designed and prepared, their antiviral activity were determined in cell culture with virus cytopathic effect assay. The results showed compound Ⅶ b, Ⅶ h exhibited potential antiviral activity.

Synthesis and Crystal Structure of 5-Diazo-4-ethoxycarbonyl-3-methylthio Pyrazol

The crystal of the title compound, 5-diazo-4-ethoxycarbonyl-3-methylthio pyrazole, has been prepared and determined by X-ray diffraction. The crystal belongs to the monoclinic system, space group C2/c with a = 29.174(8), b = 4.7592(12), c = 15.956(4) ? b = 117.632(4), C7H8N4O2S, Mr = 212.23, V = 1962.7(9) ?, Z = 8, Dx = 1.436 g/cm3, S = 1.000, m(MoKa) = 0.31 mm-1, T = 298(2) K, F(000) = 880, R = 0.0658 and wR = 0.1741 for 1091 independent reflections with I ≥ 2s(I). The crystal of the title compound is formed with p-p interactions through electrostatic attractions. Moreover, no HSO4- exists in the crystal structure. Therefore, only diazo pyrazole was obtained rather than either diazonium salt of the corresponding pyrazole or diazoaminopyrazole when 5-amino-4-ethoxycarbonyl-3-methylthio pyrazole was diazotized with sodium nitrite, catalyzed by sulfuric acid at 0 ℃.

氮杂环卡宾-铜配合物在有机催化反应中的应用研究进展

有机金属催化剂能让化学反应实现高选择性、高产率,并且反应条件温和、操作简单方便.其中,氮杂环卡宾(N-heterocyclic carbenes, NHCs)是一类稳定性强、价格低廉、毒性较低、易制备的配体.因为氮杂环卡宾与过渡金属具有强配位能力,使得其作为过渡金属配合物的新型配体而得到了迅速发展.相比其他金属来说,金属Cu以其价廉和储量丰富等优势而在众多金属中脱颖而出.基于此,本文以氮杂环卡宾-铜配合物(NHC-Cu)为例,总结和归纳了近十年来NHC-Cu作为催化剂在有机反应中的研究进展,主要包含Click反应(叠氮与炔环加成反应)、末端炔烃与三氟甲基酮的加成反应、共轭加成反应、羰基化反应、不对称烯丙基取代反应、A^(3)偶联反应、硼化反应和氧化反应等.

新型N-杂环卡宾汞(银)配合物的合成与抑菌活性

为N-杂环卡宾金属配合物在药物化学中的应用提供新的思路,合成了1-丁基-3-(2-甲基-8-丁氧基喹啉)咪唑六氟磷酸盐(L)和1-苄基-3-(2-甲基-8-丁氧基喹啉)咪唑六氟磷酸盐(M),并与金属阳离子配位反应,得到新型N-杂环卡宾金属配合物(L-Hg、M-Hg和M-Ag),其结构经^(1)H NMR,^(13)C NMR和X-单晶衍射表征。单晶结构结果分析表明:配合物L-Hg为单斜晶系、C 2/c空间群,汞原子与2个卡宾碳原子配位形成直线结构;配合物M-Hg为三斜晶系、P-空间群,汞原子与2个配体卡宾碳原子形成二配位体结构;配合物M-Ag为单斜晶系、P2(1)/c空间群,银原子分别与卡宾碳、氧原子、喹哪啶氮原子以及银原子配位,形成少见的四配位双核银卡宾化合物。通过最低抑菌浓度法发现M-Ag的抑菌浓度约为0.1 mg·mL^(-1)。

不对称氮杂环卡宾催化在农药活性分子合成中的应用

手性农药的不同构型对其生物活性有很大的影响。光学纯手性农药具有药效高、用药量小、对作物和环境生态更安全、相对成本更低和市场竞争力强等优势,已成为21世纪新农药研发的热点,但大多数手性农药仍以消旋体形式市售使用。针对氮杂环卡宾催化高效、高立体选择性构建中心手性、轴手性和面手性农药活性分子的方法分别作简要分析和总结,旨在为手性农药高效合成提供指导。