烷基咪唑离子液体对脂肪酶催化酯水解反应活性的影响

考察了1-烷基-3-甲基咪唑类离子液体对柱状假丝酵母脂肪酶(CRL)催化橄榄油水解反应活性的影响,利用电导法确定了磷酸盐缓冲液中Br^-,Cl^-,[BF₄]^-系列咪唑离子液体的临界胶束浓度(CMC)和[PF₆]^-系列咪唑离子液体的溶解度.结果显示,离子液体的阴、阳离子对酶活性的影响规律与离子液体的Kosmotropicity性质无明显关联,但与离子液体在体系中的含量密切相关,在最适离子液体含量时,酶活性达到最高;阳离子[C_nMIM]⁺中的n越大,可促进酶活性的离子液体适宜含量越低;Br^-,[BF₄]^-系列离子液体的浓度超过CMC时则抑制酶活;阴离子对酶活性的最大促进作用顺序为Br^->Cl^->[BF₄]^->[PF₆]^-.离子液体对酶活性的影响随体系pH和温度的不同而改变,在最适离子液体浓度时的最适pH均为7.000.在pH 7.000,30 ^oC以及[C₈MIM]Br离子液体浓度为47.6 mmol/L的最佳条件下,最高相对酶活力和比活力分别达到1734%和54.4 U/mg protein.     

[Bmim]Cl/FeCl3离子液体催化α-生育酚与β-D-五乙酰葡萄糖的糖基化反应

以[Bmim]Cl/FeCl₃(三氯化铁/氯化丁基甲基咪唑)离子液体作为反应介质和催化剂, 考察了离子液体的酸度、反应温度及反应时间对α-生育酚与β-D-五乙酰吡喃型葡萄糖糖基化反应的影响. 结果表明, 离子液体的催化活性与其酸强度密切相关, 离子液体的酸性越强, 其对此糖基化反应催化活性越高. 在FeCl₃与[Bmim]Cl物质的量比为2的[Bmim]Cl/FeCl₃离子液中, α-生育酚与β-D-五乙酰吡喃型葡萄糖在45 ℃下反应3 h, 可以得到较高的转化率, α-生育酚的转化率最高可达70.2%. 同有机溶剂作为反应介质相比, 反应条件温和, 反应时间短, 室温离子液体具有更好的催化活性, 所得产物与离子液体不溶, 便于分离, 催化体系可循环使用, 且对环境友好.     

二元铜族团簇负离子催化CO氧化反应机理

用密度泛函理论B3LYP方法研究了二元铜族团簇负离子AuAg^-, AuCu^-和AgCu^-催化CO氧化反应的详细机理. 计算结果表明: CO在混合团簇中的吸附位顺序为Cu>Au>Ag; O₂也优先吸附到Cu上, 其次为Ag, 最难的为Au; 另外, O₂分子较CO分子易于吸附到混合团簇上. CO氧化反应有三条反应通道, 在热力学和动力学上均容易进行. AuAg-团簇催化CO氧化反应的最优反应通道为CO插入AuAgO₂^-中的Ag―O键形成中间体[Au―AgC(O―O)O]^-, 然后直接分解形成CO₂和AuAgO^-, 或另一个CO分子进攻中间体[Au―AgC(O―O)O]^-形成两分子的CO₂和AuAg^-. 而AuCu^-和AgCu^-催化CO氧化反应的最优反应通道为CO和O₂共吸附到团簇上,然后形成四元环中间体,最后四元环中间体分解形成产物或另一个CO分子进攻四元环中间体从而形成产物. 第二个CO分子的协同效应不明显. AuAg^-和AuCu^-对CO氧化反应催化活性强于Au₂^-团簇, 因此, Ag和Cu掺杂可以提高金团簇的催化活性, 与之前实验研究结果一致.     

有机磺酸根阴离子调控的[Co (pytpy)2]2+自旋交叉化合物

本文报道了2例由有机磺酸根阴离子调控的单核钴(Ⅱ)配合物[Co(pytpy)₂](2-NH₂-1-NS)₂·MeOH·H₂O (1)和[Co(pytpy)₂](4-NH₂-1-NS)₂·H₂O (2)的合成、晶体结构和磁性,其中pytpy=4''-(4-吡啶基)-2,2''∶6'',2″-三联吡啶,2-NH₂-1-NS^-=2-氨基-1-萘磺酸根离子,4-NH₂-1-NS^-=4-氨基-1-萘磺酸根离子。单晶X射线衍射分析表明,这2例配合物均由[Co(pytpy)₂]²⁺阳离子、有机磺酸根阴离子和结晶溶剂分子组成。其中,阴离子2-NH₂-1-NS^-和4-NH₂-1-NS^-仅在磺酸根和氨基的相对位置上有所不同。有趣的是,具有处于邻位的磺酸根和氨基的2-NH₂-1-NS^-阴离子与[Co(pytpy)₂]²⁺阳离子和溶剂分子形成氢键,而具有处于对位的磺酸根和氨基的4-NH₂-1-NS^-阴离子之间通过氢键形成了二维层状结构。磁测量表明配合物1和2的磁性有很大的不同：配合物1具有可逆的渐变型自旋交叉行为,而化合物2则保持在高自旋态。     

双芳酰基肼衍生物为受体应用于F -和AcO -的识别研究

设计合成了系列双芳酰基肼衍生物, 利用紫外-可见吸收光谱考察了在乙腈中受体与F^-、Cl^-、Br^-、AcO^-、H₂PO₄^-、HSO₄^-等阴离子的作用. 研究结果表明双芳酰基肼衍生物对F^-、AcO^-有高的选择性和敏感性, 而对其他阴离子则无明显作用. 该类受体分子与阴离子通过氢键作用形成1:1的稳定化合物,从而导致了吸收光谱的变化.¹H NMR 滴定为受体分子与阴离子间的氢键作用本质提供了直接依据.     

新型三脚架苯甲醛苯腙醋酸根选择性比色化学传感器

本文合成了一个新的基于三脚架苯甲醛苯腙的能够选择地检测醋酸根离子的比色化学传感器1。用紫外可见吸收光谱证实了受体1在二甲基亚砜溶液中对醋酸根离子高选择的键合能力超越了其它阴离子。和其他所研究的阴离子相比,其在二甲基亚砜中紫外可见吸收光谱对具有高选择性醋酸根离子的存在显示了应答,当存在（2´10^-5mol·dm^-3）醋酸根离子时其溶液的颜色也由黄色变化到蓝色。当用其他不同的客体阴离子（F^-, Cl^-, Br^-, I^-, H₂PO₄ ^–和 OH^-）处理受体1时,仅出现了很小的紫外可见吸收光谱变化。受体1对醋酸根的结合常数 K_ass为1.69´ 10⁴。     

离子色谱法测定胡蜂酒中5种无机阴离子的含量

为了探究胡蜂酒中无机阴离子的含量和组成,利用离子色谱法测定胡蜂酒中5种阴离子(F_^-、Cl_^-、Br_^-、NO_3^-、PO_4^3-)含量,建立了一种同时测定胡蜂酒中5种无机阴离子的方法。并测定不同产区胡蜂酒阴离子含量,分析不同产区间胡蜂酒阴离子含量之间的差异,以期为胡蜂酒的评价提供新思路。结果表明,5种无机阴离子标准曲线相关系数良好,相关系数范围在0.9980≤ r ≤ 0.9999之间,检出限在0.024~4.33 mg.L_^-1之间, 5种阴离子的回收率在84.13~100.19%之间,RSD为 0.17~1.24 %,所建立的分析方法准确、可靠,能满足胡蜂酒中阴离子分析的要求。不同产区胡蜂酒中阴离子含量存在差异,5种阴离子平均含量高低次序为PO_4^3-(2666.825 mg/L)、Cl_^-(77.550 mg/L)、NO_3^-(9.408 mg/L)、F_^-(6.220mg/L)、Br_^-(0.760 mg/L)。16个不同产区胡蜂浸泡酒中F_^-变异系数最大,说明不同产区中F_^-含量波动较大。Cl_^-、PO_4^3-变异系数最小,说明不同产区胡蜂之间含量较稳定。     

双酸位SO42-/ZrO2-SiO2固载离子液体催化剂的构筑及性能

采用一步共缩合-水热法合成酸性载体SO₄^2-/ZrO₂-SiO₂,化学法接枝酸性离子液体磺酸功能化咪唑硫酸氢盐（[Ps-im]HSO₄）,构筑拥有Brönsted与Lewis双酸位的离子液体固载型催化剂SO₄^2-/ZrO₂-SiO₂-IL。采用X射线衍射、傅里叶红外、N₂吸附-脱附、X射线光电子能谱、热重以及透射电镜对催化剂的结构进行表征,结果表明：锆原子和酸性结构SO₄^2-被成功引入纯硅材料,所合成的载体具有一定酸性;离子液体成功固载于酸性介孔材料SO₄^2-/ZrO₂-SiO₂,且固载后的催化剂保持其介孔结构。以大豆油和甲醇的酯交换反应为探针,考察了SO₄^2-/ZrO₂-SiO₂-IL催化剂的催化性能。在反应温度为150℃、反应时间为4 h、催化剂量5%（w/w）、醇油物质的量之比为24：1的反应条件下,生物柴油的收率超过92%,且回收利用5次后,生物柴油的收率仍达86%。     

离子液体[BMIM]Br与[BMIM][BF4]配比浓度对Br-离子电荷转移的调节

利用X射线吸收精细结构光谱(XAFS)及紫外吸收光谱两种方法, 分析了离子液体1-丁基-3-甲基咪唑溴盐([BMIM]Br)中逐渐掺入1-丁基-3-甲基咪唑四氟硼酸盐([BMIM][BF₄])时, Br^-阴离子与咪唑阳离子之间氢键作用及电荷偏移量的改变. 随着[BMIM][BF₄]加入量增多, Br 元素XAFS近边(XANES)显示吸收峰降低, 吸收边位置向低能端位移0.9 eV; 扩展边(EXAFS)算出径向结构显示Br 与近邻原子间平均配位数降低、平均键长增长; 紫外光谱也有明显蓝移减色效应. 这些结果都表明Br₄^-的掺入改变了Br^-与阳离子间的电荷偏移量, 负电荷更多地转移到Br^-上, 量化计算的数据同样支持该结论.     

人工合成受体的阴离子识别研究(Ⅰ)——乙二醛缩双芳氨基硫脲的合成及阴离子识别研究

设计合成了3种乙二醛缩双芳氨基硫脲受体分子。利用紫外-可见吸收光谱及¹H NMR考察了其与F^-、Cl^-、Br^-、I^-、CH₃COO^-、C₃H₇COO^-、HSO₄^-、NO₃^-等阴离子的作用。结果表明,该类受体分子与阴离子形成氢键配合物。加入F^-、CH₃COO^-、C₃H₇COO^-时,溶液颜色立刻由无色转变为深黄色,而加入其它阴离子则无变化,从而实现对这3种阴离子的裸眼检测。通过计算可知,随着苯环上取代基的变化,此3种受体分子对F^-和CH₃COO^-的识别作用呈现有规律的变化。即o-F取代基的受体分子对阴离子的识别作用大于其他2种受体分子,且主客体间形成1∶1的配合物。¹H NMR滴定及质子溶剂效应进一步证明了受体分子与阴离子之间以氢键作用方式相结合。     

功能化酸性离子液体脱除模拟油品中的非碱性氮

合成了一系列功能化酸性离子液体并用于模拟油品中非碱性氮-吲哚的脱除。结果表明,离子液体的阴离子对脱氮率有较大影响,离子液体的酸性越强,对吲哚的选择性脱除效果越好,不同阴离子的脱氮率顺序为：HSO₄^- > CF₃COO^- > H₂PO₄^- > CH₃COO^-。以（CH₃CH₂）₃N（CH₂）₃SO₃HHSO₄为例,考察了剂油比、剂水比、沉降时间、反应时间和温度对油品脱氮率的影响。结果表明,在优化的工艺路线下,（CH₃CH₂）₃N（CH₂）₃SO₃HHSO₄对油品中的吲哚脱除率可达99.12%,重复使用六次后,脱氮活性未见明显降低,具有良好的稳定性,。     

D,L‐α‐Tocopherol Synthesis Catalyzed by the Brønsted Acidic Ionic Liquids

Abstract

The synthesis of D,L‐α‐tocopherol from trimethylhydroquinone and isophytol using the Brønsted acidic SO₃H‐functionalized ionic liquids as catalysts was explored. The catalytic activities of the SO₃H‐functionalized ionic liquids were dependent on their anions. The yield of D,L‐α‐tocopherol also depended on the solvent, which was the reaction medium. A yield of 94.3% was obtained using the SO₃H‐functionalized ionic liquid with [BF₄ ^?] anion as catalyst in propylene carbonate/heptane. The reaction mixture exhibited good biphasic behaviors, so that the produced D,L‐α‐tocopherol could be separated by decantation. The SO₃H‐functionalized ionic liquids could be reused after the removal of water.     

Efficient and convenient oxidation of cyclohexene to adipic acid with H<Subscript>2</Subscript>O<Subscript>2</Subscript> catalyzed by H<Subscript>2</Subscript>WO<Subscript>4</Subscript> in acidic ionic liquids

A simple, efficient, and eco-friendly catalytic system for the oxidation of cyclohexene to adipic acid with H₂O₂ catalyzed by H₂WO₄ in Brønsted acidic ionic liquids under solvent-free conditions has been developed. Reaction conditions such as the catalysts, the types of anions and cations for Brønsted acidic ionic liquids, reaction temperature, and the amount of hydrogen peroxide, were investigated. Moreover, the Hammett acidity functions (H ₀) of Brønsted acidic ionic liquids were determined using UV–visible spectrophotometry. The optimum reaction condition identified was n(H₂WO₄):n(Brønsted acidic ionic liquids):n(cyclohexene):n(H₂O₂) = 0.02:0.02:1:4.4, and the yield of adipic acid was 96% under the reaction scale of 10 mmol. The catalytic system can be easily recovered and reused for four reaction runs without significant loss of catalytic activity. Simple operation of the catalyst system and avoidance of the emission of nitrous oxide are the benefits of this work.     

离子液体阴阳离子协同催化芳香胺与碳酸丙烯酯反应

以离子液体1-丁基-3-甲基咪唑乙酸盐([bmim]OAc)为催化剂,以芳香胺和碳酸丙烯酯为原料,一步合成了5-甲基-3-芳基噁唑烷-2-酮.系统考察了反应温度、反应时间以及催化剂用量对反应性能的影响.在优化的反应条件下,5-甲基-3-苯基噁唑烷-2-酮的收率可达99％.研究了离子液体阴阳离子结构对反应性能的影响,发现...     

Development in the green synthesis of cyclic carbonate from carbon dioxide using ionic liquids

This brief review presents the recent development in the synthesis of cyclic carbonate from carbon dioxide (CO₂) using ionic liquids as catalyst and/or reaction medium. The synthesis of cyclic carbonate includes three aspects: catalytic reaction of CO₂ and epoxide, electrochemical reaction of CO₂ and epoxide, and oxidative carboxylation of olefin. Some ionic liquids are suitable catalysts and/or solvents to the CO₂ fixation to produce cyclic carbonate. The activity of ionic liquid is greatly enhanced by the addition of Lewis acidic compounds of metal halides or metal complexes that have no or low activity by themselves. Using ionic liquids for the electrochemical synthesis of the cyclic carbonate can avoid harmful organic solvents, supporting electrolytes and catalysts, which are necessary for conventional electrochemical reaction systems. Although the ionic liquid is better for the oxidative carboxylation of olefin than the ordinary catalysts reported previously, this reaction system is at a preliminary stage. Using the ionic liquids, the synthesis process will become greener and simpler because of easy product separation and catalyst recycling and unnecessary use of volatile and harmful organic solvents.     

Aza‐Crown Ether Complex Cation Ionic Liquids: Preparation and Applications in Organic Reactions

Aza‐crown ether complex cation ionic liquids (aCECILs) were devised, fabricated, and characterized by using NMR spectroscopy, MS, thermogravimetric differential thermal analysis (TG‐DTA), elemental analysis and physical properties. These new and room‐temperature ILs were utilized as catalysts in various organic reactions, such as the cycloaddition reaction of CO₂ to epoxides, esterification of acetic acid and alcohols, the condensation reaction of aniline and propylene carbonate, and Friedel–Crafts alkylation of indole with aldehydes were investigated carefully. In these reactions, the ionic liquid exhibited cooperative catalytic activity between the anion and cation. In addition, the aza‐[18‐C‐6HK][HSO₄]₂ was the best acidic catalyst in the reactions of esterification and Friedel–Crafts alkylation under mild reaction conditions.     

Hydroxy-α-amino acids modified by ionic liquid moieties: recoverable organocatalysts for asymmetric aldol reactions in the presence of water

New chiral ionic liquids bearing proline, serine or threonine moieties were synthesized. Compounds that contain 1-dodecylimidazolium or 4-(5-n-nonyl)-pyridinium cations and NTf₂ or PF₆ anions efficiently catalyze the asymmetric aldol reaction between aldehydes and ketones in the presence of water to generate aldols with high distereo- (up to 98:2) and enantioselectivity (up to >99% ee). 4-Hydroxyproline modified by the 4-(5-n-nonyl)-pyridinium hexafluorophosphate moiety retains its activity and selectivity over at least eight reaction cycles.     

Dy(OTf)3 in ionic liquid: an efficient catalytic system for reactions of indole with aldehydes/ketones or imines

Dy(OTf)₃ immobilized in ionic liquids was found to be an efficient catalytic system for the reactions of indole with aldehydes/ketones or imines. Enhanced activity was observed. The use of ionic liquids as the reaction media allows facile separation and recycling of the catalyst.     

金鸡纳碱季铵盐促进的 CO2 与环氧化合物的不对称环加成反应

 开发了钴配合物/金鸡纳碱季铵盐催化剂体系用于催化 CO2 与环氧化合物的不对称环加成反应, 考察了催化剂和助催化剂中阴离子对反应的影响. 结果表明, 该反应可在 667 kPa CO2 压力和室温下进行. 催化剂中不同阴离子的活性次序为 2-硝基苯氧基 > 2,4,6-三硝基苯氧基 > NO3? > OAc? > 三氟乙酸根 ≈ B ? > Cl? >对甲苯磺酸根. 当助催化剂阴离子为 Cl?时反应的 ee 值较高, 而为 Br? 时反应速度较快. 当以 (S,S)-1,2-环己二胺缩 (N,N-双 (3,5-二-叔丁基水杨醛) 钴 (III) 乙酸盐 ((S,S)-A) 结合 N,O-二苄基氯化奎宁 (1a) 作助催化剂时, 得到了 ee 值为 73% 的手性丙烯环碳酸酯.     

Synthesis of methyl orange using ionic liquids

Two ionic liquids were synthesized, each system consisting of the 1-hexyl-3-methylimidazolium ion ([hmim]⁺) as the cation and either hexafluorophosphate ([PF₆]⁻), or perchlorate ([ClO₄]⁻) as the anions. This study involves the synthesis of methyl orange (4-[[(4-dimethylamino)phenyl]-azo] benzene sulfonic acid sodium salt) using the ionic liquids as replacement solvents for the reaction. The advantage of using ionic liquids as substitutes for organic solvents includes: recyclable/reclaimable solvents, stabilization of intermediates and higher product yields. The 1-hexyl-3-methylimidazolium derivatives can be used for syntheses conducted at low temperatures and are less toxic than typical organic solvents.