吡咯烷酮酸性离子液体的合成及其对酯化反应的催化活性

合成并表征了 2-吡咯烷酮硫酸氢盐([Hnhp]HSO4)、 1-甲基-2-吡咯烷酮硫酸氢盐([Hnmp]HSO4)、 1-甲基咪唑硫酸氢盐([Hmim]HSO4)、 1-(3-磺酸基)-丙基-3-甲基咪唑硫酸氢盐([C3SO3Hmim]HSO4)和1-(3-磺酸基)-丙基-2-吡咯烷酮硫酸氢盐([C3SO3Hnhp]HSO4)等以HSO-4为阴离子的质子酸离子液体,并以乙酸和正丁醇的酯化反应考察了这些离子液体的催化活性.结果表明,当n(n-BuOH):n(MeCO2H):n([C3SO3Hnhp]HSO4)=1.2:1:0.005,反应温度为120 ℃和反应时间为 1 h 时,酯收率可达99%以上;反应结束后离子液体与酯产物可分成两相,而且该离子液体重复使用8次,催化活性没有明显下降.探讨了阳离子结构及Brnsted酸性对催化活性的影响,考察了离子液体与酯化反应相关组分的互溶性.结果表明,离子液体的分相性能对催化效果有较大的影响,离子液体的催化活性与其酸性、溶解性密切相关.     

Brønsted酸性离子液体催化合成聚甲醛二甲醚的研究

合成并表征了两种Brønsted酸性离子液体N-甲基-2吡咯烷酮硫酸氢盐([Hnmp]HSO₄)和N-甲基-2吡咯烷酮对甲苯磺酸盐([Hnmp]PTSA),对两种离子液体在由甲缩醛和多聚甲醛缩合制备聚甲醛二甲醚(DMM_n,n > 1)反应中的催化性能进行了研究.结果显示,离子液体的催化活性与其酸性相关,离子液体[Hnmp]HSO₄具有较高的催化活性;当离子液体[Hnmp]HSO₄ 的用量为2.0%(质量分数)、m(甲缩醛)/m(多聚甲醛)= 2.00、反应温度110℃、反应时间6 h时,甲缩醛的转化率和DMM_3~8 的选择性分别为52.28%和49.18%.反应结束后,离子液体[Hnmp]HSO₄与产物自动分成两相,且该离子液体的稳定性好,重复使用五次后仍有较高的催化活性.     

己内酰胺功能化离子液体的合成及其催化酯化性能的研究

以价格低廉的己内酰胺为原料,制备和表征了4种己内酰胺功能化离子液体:1-(3-磺丙基)己内酰胺硫酸氢盐([C3SO3HCP]HSO4)、1-(3-磺丙基)己内酰胺对甲苯磺酸盐([C3SO3HCP]PTSA)、1-(3-磺丙基)己内酰胺磷酸氢盐([C3SO3HCP]H2PO4)、1-(3-磺丙基)己内酰胺四氟硼酸盐([C3SO3HCP]BF4).以乙酸和乙醇的酯化反应考察4种酸性离子液体的催化活性,并与3种具有不同氮杂环的SO3H-功能化离子液体和浓硫酸相对照.结果表明:当n(C2H5OH)∶n(CH3COOH)=1∶1.5,催化剂[C3SO3HCP]HSO4用量为酸醇总质量的5%,反应温度80℃,反应时间6 h,酯收率可达93.8%,离子液体经真空干燥重复使用10次后,仍具有较高的催化活性,而且对奥氏体316 L不锈钢试样的腐蚀率不到浓硫酸的1/6.还考察了以[C3SO3HCP]HSO4为催化剂催化合成系列乙酯也获得了较高的酯收率,且离子液体均能与酯产物自动分相.与传统硫酸催化酯化相比,此类离子液体催化酯化具有生产成本低、过程清洁、腐蚀率低、使用周期长等优点,具有替代传统浓硫酸催化醇酸酯化反应的潜力.     

吡咯烷酮酸性离子液体中硼酸酯的催化合成

研究了硼酸与频哪醇和环己醇在离子液体1-甲基-2-吡咯烷酮硫酸氢盐（[Hnmp]HSO4）、1-丁基-3-甲基咪唑四氟硼酸盐（[Bmim]BF4）及1-丁基-3-甲基咪唑六氟磷酸盐([Bmim]PF6)中生成2-环己氧基-4,4,5,5-四甲基-1,3,2-二氧硼烷的酯化反应。 考察了不同离子液体、反应温度、反应时间和离子液体与反应物物质的量比等对反应的影响。 结果表明,当n(硼酸)∶n(频哪醇)∶n(环己醇)∶n([Hnmp]HSO4)=1∶1∶1∶1,反应温度为70 ℃和反应时间为4 h时,硼酸酯的产率为72.5%,离子液体重复使用4次,催化活性无明显降低。     

酸功能化离子液体催化三聚甲醛与烯烃的Prins反应

以烯烃和三聚甲醛为原料,采用酸功能化离子液体作催化剂,在无溶剂体系中经Prins反应合成了1,3-二氧己环衍生物.对不同离子液体的催化活性进行了考察,选择[BsTmG][HSO4]作为反应的催化剂.研究了温度、时间以及原料摩尔比对反应的影响,得到较佳实验条件为:催化剂用量为烯烃摩尔量的5%,三聚甲醛与烯烃摩尔比为1∶1,温度80℃,时间10 h.该催化体系具有较好的底物适用性,离子液体[BsTmG][HSO4]经简单的萃取分离后重复使用8次,仍保持较好的催化活性.     

吗啡啉功能化酸性离子液体的合成、表征及其催化酯化性能

制备和表征了三种新型质子酸离子液体: 吗啡啉硫酸氢盐([Hnhm]HSO4)、4-甲基吗啡啉硫酸氢盐 ([Hnmm]HSO4)和SO3H-功能化的4-(3-磺丙基)吗啡啉硫酸氢盐([C3SO3Hnhm]HSO4). 以氯乙酸(CAA)和乙醇合成氯乙酸乙酯的酯化反应考察了它们的酸性和催化活性, 并与1-(3-磺酸基)丙基-3-甲基咪唑硫酸氢盐、1-(3-磺丙基)吡啶硫酸氢盐、1-(3-磺丙基)-2-吡咯烷酮硫酸氢盐等三种具有不同氮杂环的SO3H-功能化酸性离子液体以及浓硫酸相对照. 结果表明, 上述SO3H-功能化离子液体对酯化反应的催化性能比非SO3H-功能化的[Hnhm]HSO4和[Hnmm]HSO4都高, 等同甚至优于浓硫酸. 当反应条件为: n(EtOH)∶n(CAA)∶n([C3SO3Hnhm]HSO4)＝1.3∶1∶0.2, 反应温度80 ℃, 反应时间3 h, 酯收率可达93.4%. 而且离子液体经真空干燥重复使用9次, 催化活性仍无明显下降. 以[C3SO3Hnhm]HSO4催化乙酸和不同醇的酯化反应获得较高的酯收率和选择性, 离子液体跟酯产物均能自动分相. 还考察了SO3H-功能化酸性离子液体对奥氏体316不锈钢的腐蚀性. 尽管SO3H-功能化离子液体与硫酸的酸性相近, 但对钢试样的腐蚀率不到硫酸的1/3.     

离子液体催化合成对羟基苯甲酸乙酯

采用酸性离子液体[C3SO3 Hmim] HSO4、[C4SO3 Hmim] HSO4和[C3SO3 Hnhm] HSO4代替浓硫酸为催化剂合成对羟基苯甲酸乙醇.考察了反应温度、反应时间、催化剂用量、酸醇摩尔比对该反应产率的影响及离子液体的重复使用性能.选择了最佳反应条件,以[C3SO3 Hnhm] HSO4作为催化剂...     

酸性离子液体的合成和光谱表征

合成了基于N-甲基咪唑、2-吡咯烷酮阳离子的两个Br nsted酸性离子液体系列:[Hmim]HSO4/BF4、[Hnhp]HSO4/BF4以及两种—SO3H功能化酸性离子液体1-(3-磺酸基)丙基-3-甲基咪唑硫酸氢盐([C3SO3Hmim]HSO4)、N-(3-磺酸基)丙基吡咯烷酮硫酸氢盐([C4SO4Hnnp]HSO4)。其中,[Hnhp]HSO4/BF4,[C4SO4Hnnp]HSO4是本实验设计合成的新型酸性离子液体,而咪唑类离子液体用于对照。上述6种离子液体均以核磁共振、电喷雾质谱、红外光谱和紫外光谱分析法对结构加以表征并确认;并以它们作为溶剂和催化剂对乙酸、乙醇酯化反应进行初步试验,结果表明所合成的新型酸性离子液体(尤其是引入磺酸基的)是酯化反应较理想的绿色液体酸催化剂。     

新型异核双阳离子型磺酸功能化离子液体的合成及其催化活性

合成了三种基于1-吗啉基-3-咪唑基丙烷异核双阳离子的新型二磺酸功能化BrΦsted酸性离子液体:1-[4-(4-磺酸丁基)吗啉基-3-[3-(4-磺酸丁基)咪唑基]丙烷二(三氟甲烷磺酸)盐{A,[(C4SO3H)m(C4SO3H)i]p(OTf)2}、1-[4-(4-磺酸丁基)吗啉基-3-[3-(4-磺酸丁基)咪唑基]丙烷二硫酸氢盐{B,[(C4SO3H)m(C4SO3H)i]p(HSO4)2}及1-[4-(4-磺酸丁基)吗啉基-3-[3-(4-磺酸丁基)咪唑基]丙烷二磷酸二氢盐{C,[(C4SO3H)m(C4SO3H)i]p(H2PO4)2}.其结构经FT-IR、MS、NMR等确认.选择吗啉、甲基咪唑单磺酸功能化离子液体作为对照组,以苯甲醛与环己酮之间的交叉Aldol缩合反应考察了其催化活性.用Hammett方法测定了其酸性,实验结果表明,所合成的三种双磺酸功能化离子液体的催化能力比单磺酸功能化离子液体的强,其酸性次序与催化活性相一致.其中,阴离子为三氟甲烷磺酸根的离子液体对18种Aldol缩合反应底物有极好的适应性,并且催化活性最强,产率高达90%,在重复使用10次后,仍保持较高的反应活性.关键词二磺酸功能化离子液体;合成;催化活性;Hammett方法;交叉Aldol缩合反应;重复使用     

Brφnsted酸性离子液体催化合成阿司匹林

用Brφnsted酸性离子液体[Hmim]BF4、[bmim]HSO4和[bmim]H2PO4代替浓H2SO4为催化剂催化乙酸酐对水杨酸的乙酰化,合成阿司匹林。考察了反应温度、反应时间、催化剂用量、酐/醇摩尔比对水杨酸酰化反应产率的影响和离子液体的重复使用性能。选择了最佳反应条件,以[bmim]H2PO4作为催化剂,催化剂用量为0.28g(1.18×10-3mol),水杨酸2.762g(0.02mol),乙酸酐4.083g(0.04mol),n(酐)∶n(醇)=2∶1,反应时间30min,反应温度70℃,产率最高达63.43%,并且[bmim]H2PO4溶于水后通过过滤和旋蒸脱水,重复使用3次,产率无明显变化。     

咪唑类高铼酸盐催化微晶纤维素降解反应研究

以咪唑类高铼酸盐为催化剂,以离子液体1-烯丙基-3-甲基咪唑氯盐([Amim]Cl)为溶剂降解微晶纤维素(MCC)。分别考察反应温度、反应时间、反应物浓度、催化剂用量和结构对纤维素降解反应的影响。结果表明,以5%1-(3-磺酸)丙基-3-甲基咪唑高铼酸盐([mim-(CH_2)_3SO_3H]ReO_4)为催化剂,在微波辅助加热条件下,0.1 g纤维素在2.0 g离子液体[Amim]Cl中于160℃降解30 min,还原糖收率(TRS)和葡萄糖收率最高可达89.6%和46.7%。研究还对咪唑类高铼酸催化纤维素降解反应的催化机理进行讨论,认为催化剂芳环阳离子、ReO-4中Re=O与纤维素分子中羟基的相互作用是促进纤维素降解的关键     

Double bond shifts induced by reaction of hex-5-en-2-one with triosmium clusters

Carbon---hydrogen bond cleavage at the terminal 6-position occurs when hex-5-en-2-one (CH₂=CHCH₂CH₂COMe) oxidatively adds to [Os₃(CO)₁₀(MeCN)₂] to give [Os₃H(μ-CH=CHCH₂CH₂COMe)(CO)₁₀], which is completely analogous to the simple vinyl complex [Os₃H(μ-CH=CH₂)(CO)₁₀]. A minor product from the reaction is [Os₃(CH₃CH=CHCH₂COMe)(CO)₁₀], an isomer in which double-bond migration has occurred to give the βγ-unsaturated ketone; stabilisation occurs through chelation and ketone coordination. [Os₃H₂(CO)₁₀] reacts with CH₂=CHCH₂CH₂COMe in refluxing cyclohexane to give a third isomer, [Os₃H(CH₃CH₂C=CHCOMe)(CO)₁₀], in which further double bond migration has occurred to give the β-unsaturated ketone. Metallation at the β-site gives an Os---C bond as part of a 5-membered chelate ring. Thermolysis of each of the three isomeric decarbonyl species in refluxing cyclohexane or heptane leads to the elimination of an Os(CO)₄ group to give the dinuclear compound [Os₂H(EtC=CHCOMe)(CO)₆] in varying yield. Pathways from γδ to the βγ and finally the β unsaturated ketones may be mapped out.     

Schwefel(IV)-Verbindungen als Liganden XVII. Übergangsmetall-vermittelte Insertion von Schwefeldioxid in die C---O-Einfachbindung

Methoxyethyliron complexes [Cp(CO)(L)Fe(CH₂CHROMe)] (L = CO, P(OPh)₃; R = H, Me) insert SO₂ into the C---O single bond wih formation of metalated sulphonic acid esters [Cp(CO)(L)Fe(CH₂-CHRSO₂OMe)]. the insertion is stereospecific wih retention of configuration at carbon. The complexes [Cp(CO)₃M(CH₂CHRSO₂OMe)] (M = Mo, W; R = H, Me) are obtained analogously. Oxidation of [Cp(CO)₃W(CH₂CH₂SO₂OMe)] wih iodine gives the ionic tungsten(IV) alkyl complex [Cp(CO)₃(I)W(CH₂CH₂SO ₂OMe)]⁺. Triphenylphosphine converts [Cp(CO)₃Mo(CH₂CHRSO₂OMe)] into acyl complexes [Cp(CO)₂(Ph₃P)Mo(C(O)CH₂CHRSO ₂OMe)] (R = H, Me), which upon oxidation with Ce^IV in MeOH yield the diesters MeOC(O)CH₂CHRSO₂OMe.     

Bronsted acidic ionic liquid [C3SO3HDoim]HSO4 catalyzed one-pot three-component Biginelli-type reaction: An efficient and solvent-free synthesis of pyrimidinone derivatives and its mechanistic study

A series of Bronsted acidic ionic liquids(ILs) were prepared and used for Biginelli-type condensation reaction among aromatic aldehydes, urea or thiourea and cyclopentanone. Through this reaction, the synthesis of various pyrimidinones could be achieved. Of interest, it was found that the reaction was efficiently catalyzed by a novel, eco-friendly functionalized IL [C_3SO_3HDoim]HSO_4, which could be reused for at least 7 times without significantly loss of catalytic activity. The reaction proceeded efficiently at 80℃ to afford the desired products in good yield(up to 96%). In addition, a possible mechanism that accounted for the IL [C_3SO_3HDoim]HSO_4-catalyzed reaction was proposed.     

Structural tuning of coordination polymers by 4-connecting metal node and secondary building process

Due to variation in ligand's conformation, metal node's connecting geometry, and secondary building process by anions, bat-like, dumbell-like, diamondoid, or pillar-layer topologies are achieved.     

Synthesis and X-ray crystal structures of [Ph2PMe2][(η-C5H4Bu)2Li] and [(η-C5H4Bu)2Yb(Cl)CH2P(Me)Ph2]

The interaction of [(η⁵-C₅H₄Bu^t)₂YbCl · LiCl] with one equivalent of Li[(CH₂) (CH₂)PPh₂] in tetrahydrofuran gave [Ph₂PMe₂][(η⁵-C₅H₄Bu^t)₂Li] (1) and [(η⁵-C₅H₄Bu^t)₂Yb(Cl)CH₂P(Me)Ph₂] (2) in 10% and 30% yields, respectively. 1 could also be prepared in 70% yield from the reaction of [Ph₂PMe₂][CF₃SO₃] with two equivalents of (C₅H₄Bu^t)Li. Both compounds have been fully characterized by analytical, spectroscopic and X-ray diffraction methods. The solid state structure of 1 reveals a sandwich structure for the [(η⁵-C₅H₄Bu^t)₂Li]⁻ anion.     

Dimerization of methyl acrylate by homogeneous transition metal catalysis. Part II. Activation of dihydridoruthenium(II) phosphane complexes by CF3 3H

The tail-to-tail dimerization of methyl acrylate (MA) in the presence of H₂Ru(PPh₃)₄ (1) or H₂(CO)Ru(PPh₃) ₃ (2) and CF₃SO₃H to give a mixture of linear dimers is described. In neat methyl acrylate at 85°C the reaction shows turnover numbers of 300 in 20 h and 640 in 7 d. Mechanistic studies show that the initial step of the reaction is the reduction of H₂Ru(PPh₃)₄ (1) by MA to form Ru(MA)₂ (PPh₃)₂ (5). After activation with CF₃SO₃H the catalytically active species contains only one phosphane ligand. The basic mechanistic features of the dimerization reaction have been revealed by ²H NMR spectroscopy involving the use of CF₃SO₃D. The deuterium-labelling studies indicate the intermediate formation of a ruthenium(II) hydride complex. Subsequent olefin insertions in this complex, followed by β-hydride elimination,lead to the linear dimeric products.     

Ein beitrag zur darstellung und reaktivität der η-allyliridium-komplexe [Ir(η-2-RC3H4) (PPr3)2]

The η³-allyliridium complexes [Ir(η³-2-RC₃H₄)(PⁱPr₃)₂] (2, 3) have been prepared in a one-pot reaction from [IrCl(C₂H₄)₂]₂, 2-RC₃H₄Li and PⁱPr₃ in 70% yield. Compounds 2 and 3 react spontaneously with H₂ to give [IrH₅(PⁱPr₃)₂] (7) and with excess PhC=CH and MeCCH to give [Ir(CCPh)₃(PⁱPr₃)₂] (5) and [Ir(CCMe)₂(CMe=CH₂)(PⁱPr₃)₂] (6), respectively. From 2 (or 3) and two equivalents of PhCCH the complex [IrH(CCPh)₂(PⁱPr₃)₂] (4) has been obtained. Treatment of 2 or 3 with CF₃CO₂H does not lead to a cleavage of the allyl-metal bond but affords the allyl(hydrido)-iridium(III) complexes [IrH(η³-2-RC₃H₄)(η¹-P₂CCF₃)(PⁱPr₃)₂] (8, 9) in almost quantitative yield.     

Reaction of silylpentacarbonylmanganese with hydride-transfer reagents: reduction of carbonyl ligands accompanied with Si---C and C---C coupling

Treatment of Mn(CO)₅SiTol^p₂H (2) with an excess of LiAlH₄, NaBH₄, or NaBH₃(CN) in THF at room temperature gave hydrosilane H---SiTol^p₂H in high yield together with Mn₂(CO)₁₀. No reduction of CO ligands was observed. On the other hand, treatment of 2 with an excess of Red-Al (=Na[(CH₃OCH₂CH₂O)₂AlH₂]) in toluene and subsequent addition of aqueous acidic solution afforded alkylsilanols (CH₃)SiTol^p₂(OH) and (C₂H₅)SiTol^p₂(OH). Treatment of the reaction mixture of 2 and Red-Al with LiAlH₄ in diethyl ether instead of hydrolysis gave alkylhydrosilanes (CH₃)SiTol^p₂H and (C₂H₅)SiTol^p₂H. The methyl and ethyl groups on silicon originate from the CO ligands in 2. These products clearly demonstrate that not only the Si---C coupling, but also C---C coupling occurs efficiently in this reaction.