Et_3NHCl-AlCl_3催化苯与1-十二烯烃烷基化反应机理的研究

本文利用同位素取代法考察了离子液体催化苯与烯烃烷基化反应机理.首先进行了Et3NHCl-AlCl3催化氘代苯与1-十二烯烃的反应,通过GC-MS及NMR分析产物结构,根据分析结果,在反应过程中一个D原子从苯环转移到侧链的1-碳.由此推断离子液体催化苯与长链烯烃的烷基化反应机理为:反应由Lewis酸AlCl3引发;AlCl3吸引1-十二烯烃的π电子向1-碳转移,形成碳正离子;碳正离子进一步与苯反应形成不稳定的σ络合物,σ络合物苯环上的sp3杂化碳相连的D+转移到侧链的负电1-C上取代AlCl3,生成产物2-十二烷基苯.     

离子液体的酸性测定及其催化的二苯醚／十二烯烷基化反应

 采用乙腈探针红外光谱法测定了［bmim］Cl／AlCl3类离子液体的酸性．结果表明，乙腈可以区分离子液体的酸类型（Bronsted酸或Lewis酸），同时可以指示离子液体的Lewis酸强度．使用［bmim］Cl／AlCl3类离子液体催化二苯醚与十二烯的烷基化反应，研究了离子液体的酸强度、反应温度和醚烯比对反应的影响，并与AlCl3催化体系进行对比．结果发现，该离子液体对二苯醚与十二烯烷基化反应的催化活性明显高于AlCl3．使用离子液体作催化剂显著提高了烷基化反应的产率，简化了产物的分离与提纯，且对环境友好．当控制反应温度为80℃，原料醚烯摩尔比为7，并采用酸强度适中的离子液体时，目标产物单十二烷基二苯醚的产率接近90％．     

SO42-/ZrO2-TiO2催化苯与1-十二烯烷基化合成十二烷基苯

利用沉淀-浸渍法制备了SO42-/ZrO2-TiO2固体酸催化剂,优化了SO42-/ZrO2-TiO2催化苯与1-十二烯烷基化合成十二烷基苯的工艺条件,并通过IR及GC/MS对产物的结构进行了表征.结果表明: SO42-/ZrO2-TiO2对苯与1-十二烯的烷基化反应具有良好的催化性能,其催化中心主要为B酸中心.0.12g催化剂/ mL1-十二烯、n(苯)/n(烯)=6:1、反应时间3 h等优化条件下1-十二烯转化率100%,LAB与2-LAB选择性分别达到90.3%和88.6%.使用后的催化剂可以通过H2SO4浸渍500 ℃焙烧再生.GC/MS分析表明产物主要包括2～6-LAB及少量二烷基苯.     

离子液体超酸清洁催化苯的烷基化反应

研究了在具有Lewis酸性的离子液体体系中进行的苯与烯烃及卤代烃的烷基化反应.以氯化1-甲基-3-乙基咪唑(MEIC)、氯化1-丁基吡啶(BPC)、氯化l-甲基-3-丁基咪唑(MBIC)及盐酸三甲胺(TMHC)季铵盐分别与AlCl3原位合成法制备离子液体催化体系.结果表明:以上各种离子液体均有很高的催化活性,反应转化率在较短的时间内达到100%.其中TMHC-A1Cl3离子液体单烷基化选择性达98.6%.与AlCl3相比,催化活性显著提高,生成烷基化产物不溶于离子液体,因而易于分离,催化剂可重复使用.     

新型离子液体介质中长链烯烃氢甲酰化反应

合成和表征了离子液体[Rmim][p-CH3C6H4SO3](R=CH3(CH2)n—, n=3, 7, 11, 15), 并以所合成的离子液体为反应介质, 考察了水溶性铑膦络合物HRh(CO)(TPPTS)3[TPPTS: P(m-C6H4SO3Na)3]对长链烯烃氢甲酰化反应的催化性能. 结果表明, 离子液体[Rmim][p-CH3C6H4SO3]中R基团链长的变化对催化活性具有重要的影响；而在相同离子液体中, 氢甲酰化反应活性随着烯烃链长的增加明显下降. 与文献报道中广泛使用的离子液体[Bmim]BF4、[Bmim]PF6相比, 该催化体系对长链烯烃氢甲酰化反应具有更好的活性和化学选择性, 在3.0 MPa, 100 ℃的条件下, 1-己烯氢甲酰化反应转化频率(TOF)高达2736 h-1. 反应完成后, 水溶性铑膦络合物能很好地溶解在离子液体中, 与有机物自动分层, 催化剂的循环使用易于实现.     

二苯醚烷基化反应中酸性离子液体的循环使用

使用酸性离子液体催化二苯醚与十二烯烷基化反应,考察了离子液体的失活原因,提出了循环使用离子液体的解决办法.在二苯醚与十二烯烷基化反应中, Lewis酸性离子液体不能多次循环使用的原因是离子液体与二苯醚相互作用导致具有催化活性的Al2Cl72－分解、流失.改变离子液体的阳离子不能从本质上解决其与二苯醚间的相互作用.适时补加损失量的AlCl3使离子液体的Lewis酸性得以恢复,可以解决体系中酸性离子液体循环使用问题,循环使用8次后产物产率仍保持90％左右.     

钴催化的电化学烯丙位碳-氢烷基化反应

<正>烯丙位的碳-氢官能团化是从简单烯烃合成官能化烯烃的重要手段之一;此外,由于产物分子中的不饱和双键利于后续的衍生化,该类反应为快速构建骨架多样性的功能分子提供了重要的合成子[1].2008年,施章杰课题组[2]与White课题组[3]分别使用钯作为催化剂,以对苯醌或者对苯醌与二甲亚砜(DMSO)的组合作为化学氧化剂,实现了烯丙位的碳-氢烷基化反应.     

CuCl对Et3NHCl/AlCl3离子液体催化性能的影响

 用CuCl对Et3NHCl/AlCl3离子液体进行改性,并考察了其对异丁烷-丁烯烷基化反应的催化性能. 结果表明,烷基化油的收率达到178%,C8组分的含量达到85%,辛烷值(RON)达到94.8. 通过结构组成及电荷分布分析可知,在CuCl改性的Et3NHCl/AlCl3离子液体中形成了新的配位结构AlCl4CuCl-,它作为更好的碳正离子受体,在反应过程中可降低碳正离子的浓度,进而降低烯烃的聚合程度,抑制较长碳链烷烃的生成,改善烷基化油的组成.     

离子液体中异丁烷/2-丁烯烷基化反应机理研究

以复合离子液体[Et_3NH]Cl-AlCl_3-CuCl为催化剂,在连续搅拌釜式反应器中进行了异丁烷与2-丁烯烷基化反应;利用氘代异丁烷同位素示踪法研究了催化反应机理。结果表明,在离子液体中异丁烷烷基化的反应诱导期较短;三甲基戊烷产物主要源于异丁烷的自烷基化、丁烷/丁烯的直接烷基化以及C_(12)~+中间体的裂化反应,而大部分二甲基己烷是仲丁基碳正离子与丁烯加成的产物。     

催化噻吩类硫化物与烯烃烷基化硫转移反应的固体酸催化剂的失活机理

 催化裂化(FCC)汽油中的硫化物多以噻吩类硫化物的形式存在,而且相对集中在沸程较高的馏分中. 通过固体酸催化剂催化噻吩类硫化物与烯烃的烷基化反应生成多烷基噻吩,可较大程度地提高其沸点,再经精馏将硫化物转移至FCC汽油的重馏分中,从而达到脱硫目的. 考察了AlCl3-CT175树脂催化剂催化模型硫化物如噻吩、2-甲基噻吩及2-乙基噻吩与异丁烯的烷基化反应性能,采用GC-FPD和GC-MS技术研究了AlCl3-CT175树脂催化剂的失活机理. 结果表明,原料中的二烯烃杂质在固体酸催化剂作用下发生聚合反应结焦,覆盖在催化剂表面,堵塞孔道,从而导致催化剂失活.     

Alkylation mechanism of benzene with 1-dodecene catalyzed by Et3NHCl-AlCl3

The isotope exchange method was employed to investigate the catalytic mechanism of ionic liquid in alkylation of benzenes with olefins. It is proposed that alkylation was induced by the Lewis acid AlCl₃ which attracted π electrons of 1-dodecene to shift toward 1-carbon, thus forming a carbonium ion. The carbonium ion further reacted with benzenes to form a complex. Due to unstabilit of the complex, a deuterated ring proton was transferred into an electronegative 1-carbon of the side chain to substitute for the AlCl₃, accordingly 2-phenyldodecane was generated.     

Catalytic performance of [Bmim][Co(CO)4] functional ionic liquids for preparation of 1,3-propanediol by coupling of hydroesterification-hydrogenation from ethylene oxide

In this paper, synthesis of 1,3-propanediol (1,3-PDO) through coupling of hydroesterification-hydrogenation from ethylene oxide (EO) catalyzed by 1-butyl-3-methylimidazolium cobalt tetracarbonyl [Bmim][Co(CO)₄] functional ionic liquid which was prepared by metathesis reaction between [Bmim]Cl and KCo(CO)₄ has been studied. The structure of [Bmim][Co(CO)₄] was characterized by FT-IR and ¹H NMR. Using [Bmim][Co(CO)₄] as catalyst and [Bmim]PF₆ as solvent, 1,3-PDO was prepared for the first time by coupling of hydroesterifaction of EO and hydrogenation of methyl 3-hydroxypropionate (3-HPM). The yield of 3-HPM can reach 90.8%, while the yield of 1,3-PDO up to 82.9%. The catalyst can be separated from the product mixture by extraction with deionized water and recycled several times without significant loss of catalytic efficiency. A possible reaction mechanism has also been proposed.     

Hexakis(4-(N-butylpyridylium))benzene: a six-electron organic redox system

The cobalt-catalyzed cyclotrimerization of bis(4-pyridyl)acetylene affords hexakis(4-pyridyl)benzene in moderate yield. Alkylation with n-butyltriflate gives hexakis(4-(N-butylpyridylium))benzene triflate (1 6+), which can be reduced with Na/Hg in DMF to neutral 10. A single-crystal X-ray diffraction structure reveals that 1 0 has a chair-cyclohexane-like core and a [6]radialene structure. Cyclic voltammetry shows that 1 6+ is reversibly reduced to 1 2+ in one four-electron step and 1 2+ is reversibly reduced to 1 0 in one two-electron step. A reduction by four electrons at one potential is unprecedented for a molecule in which the electrochemically active centers are in electronic communication. The large structural transformation from 1 6+ to 1 0 is responsible for the "potential inversion" in the cyclic voltammetry, and DFT calculations suggest a possible structure for the stable intermediate 1 2+. A comparison is made to the electrochemistry and structural transformations in a previously prepared [4]radialene analogue of 1 0.     

1-丁基-3-甲基咪唑硫酸氢盐离子液体与含氮化合物相互作用的理论研究

采用密度泛函理论方法研究了1-丁基-3-甲基咪唑硫酸氢盐离子液体[Bmim]HSO_4与氮化物喹啉和吲哚分子的相互作用,并进行了NBO和AIM分析。[Bmim]HSO_4离子对最稳定结构表明,[HSO_4]~-阴离子中的氧原子与咪唑环中正电性较大的C14-H20之间有较强的氢键作用。在分子水平上,NBO和AIM分析证实了喹啉和吲哚分子与[Bmim]HSO_4的阴离子之间有较强的相互作用,其中,喹啉分子中的氮原子与阴离子[HSO_4]~-中氢原子之间的作用以及吲哚分子中N-H的氢原子与[HSO_4]~-中氧原子之间的作用是该离子液体能够有效脱除氮化物的主要动力。     

Enhanced and suppressed effects of ionic liquid on the photocatalytic activity of TiO2

The effects of a room temperature ionic liquid, 1-butyl-3-methylimidazolium terafluoroborate ([Bmim]BF₄), on the photocatalytic performance of Degussa P25 TiO₂ were investigated. Also, the photocatalysis mechanism was systematically analyzed by conducting different reactive radical trapping experiments. The results showed that photogenerated electrons were the main reactive species involved in the photocatalytic degradation of methyl orange (MO), while ?OH radicals and photogenerated holes played an important role in the photocatalytic decomposition of rhodamine B (RhB). The addition of ionic liquid (IL) could slightly enhance the photocatalytic degradation rate of MO because adsorption of [Bmim]⁺ ions on the TiO₂ surface not only enhanced traping and transfer of photogenerated electrons, but also facilitated adsorption of negatively charged MO. On the contrary, IL suppressed the degradation rate of RhB because [Bmim]⁺ on the TiO₂ surface not only hindered the access of positively charged RhB to TiO₂, but also restricted the diffusion of positively charged holes to the TiO₂/solution interface.     

SiO_2负载磷钨钒杂多酸杂化材料的制备及其氧化脱硫性能的研究

利用磷酸氢二钠、偏钒酸纳和钨酸钠为原料,合成了具有Keggin结构的磷钨钒杂多化合物(H5PW10V2O40),并与1-丁基-3-甲基咪唑溴(BmimBr)离子液体反应生成一种杂多酸杂化材料([Bmim]5PW10V2O40)。利用红外光谱(FT-IR)、X射线衍射光谱(XRD)和紫外可见光谱(UV-vis)对所合成的杂多酸杂化材料进行表征。结果表明,[Bmim]5PW10V2O40具有咪唑阳离子基团和Keggin型杂多阴离子基团的结构特征,并且两种基团之间存在相互作用。以SiO_2为载体制备负载型的杂多酸杂化材料催化剂[Bmim]5PW10V2O40/SiO_2,以H2O_2作为氧化剂,考察该催化剂对模拟油中DBT的氧化性能,并优化氧化反应条件,在反应温度40℃,O/S物质的量比为3.0的条件下,反应50min,模拟油品中的DBT的转化率可以达到100%。催化剂可以通过离心法分离,经过干燥之后,可以循环使用至少七次,而对DBT的氧化活性没有降低。     

先锋褐煤在离子液体1-丁基-3-甲基咪唑三氟甲磺酸盐作用下热溶解聚及其产物分析

考察了先锋褐煤(XL)在高温稳定性很好的离子液体1-丁基-3-甲基咪唑三氟甲磺酸盐([Bmim]OTf)中的解聚性能,并对其在不同热溶条件下解聚所得热溶物和残煤进行了分析表征。结果表明,[Bmim]OTf对XL具有较好的解聚性能。在280℃,[Bmim]OTf/XL为3.5下解聚4h,[Bmim]OTf对XL的萃取率(以四氢呋喃可溶物计)为20.1%。四氢萘(THN)、H₂和催化剂ZnCl₂的加入可显著促进XL在[Bmim]OTf中的解聚,相比于XL在[Bmim]OTf作用下的萃取率,THN、H₂和催化剂ZnCl₂的加入使可溶物的收率分别提高到30.0%、36.9%和46.8%。产物分析结果表明,在[Bmim]OTf热溶解聚XL的过程中THN的加入使得XL经离子液体[Bmim]OTf解聚所得热溶物中氢键的数量明显增加;H₂和ZnCl₂的添加分别增加了产物中脂肪烃和芳烃的含量。     

Solvent-free aza-Markovnikov and aza-Michael additions promoted by a catalytic amount of imidazolide basic ionic liquids

A family of imidazolide ionic liquids were synthesized and characterized. These ionic liquids combined the virtues of strong basicity and relatively good thermal stability. Catalytic properties of these imidazolide ionic liquids were investigated and satisfactory yield was achieved when 2.0 mol % of [Bmim]Im was used as catalyst for aza-Markovnikov addition under solvent-free condition at room temperature in one hour. Experimental results show that a hydrogen bond is not formed between [Bmim]Im/imidazole and vinyl ester, and its existence is not necessary for the [Bmim]Im catalyzed aza-Markovnikov addition either. A possible mechanism for [Bmim]Im-catalyzed aza-Markovnikov addition was proposed. The use of imidazolide ionic liquids in aza-Michael addition was investigated as well.