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离子液体由于具有良好的溶解能力、配位能力、热及化学稳定性、结构及性质可调、环境友好等特点,被认为是传统非环保型、有毒、污染严重的溶剂和催化剂潜在的替代品,已被广泛应用于有机合成及催化领域。本文综述了近年来离子液体在羰基化反应中的应用及催化反应机理研究进展,包括烯烃、醇类化合物、芳烃、胺/胺醇、卤代芳烃及甲醛的羰基化反应,羰基源主要包括CO、CO2和碳酸二甲酯,涉及到了酸性离子液体、碱性离子液体、金属类离子液体、负载型离子液体等多种类型的功能化及非功能化离子液体。在上述反应中离子液体不仅可以提高反应活性和选择性,而且简化了催化剂分离过程,在部分反应中实现了回收和循环使用。并对羰基化反应的发展及应用前景进行了展望。 相似文献
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与铵盐类离子液体比较,季鏻盐离子液体具有挥发性更低,物理、化学性质更加稳定,兼具催化功能等优点。近年来,季鏻盐离子液体作为一种绿色反应介质日益受到重视,很多类型的有机反应在季鏻盐离子液体中得到应用,收到了很好的效果。本文主要以2000年以来的期刊文献报道为线索,对季鏻盐离子液体的制备方法以及以其作为反应介质的绿色有机反应进行了综述。这些反应主要包括Diels-Alder反应、Heck反应、Suzuki反应、Buchwald-Hartwig 反应、Friedel-Crafts反应、Kornblum 取代反应、Grignard反应、羰基化反应、氢甲酰化反应、转移氢化反应、酯化反应等多种类型。特别是对于一些涉及强碱性反应条件或亲电取代的反应类型,季鏻盐离子液体具有特殊的优势。 相似文献
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碱性离子液体[bmim]OH在Knoevenagel反应和Perkin反应中的应用 总被引:4,自引:0,他引:4
以碱性离子液体[bmim]OH作为催化剂, 在无溶剂条件下, 催化Knoevenagel反应和Perkin反应两类缩合反应. 实验结果表明, 该离子液体对Knoevenagel反应具有很高的催化活性, 一系列的芳香醛和活泼亚甲基化合物在室温条件下10~30 min内顺利完成反应, 以85%~95%的高产率生成取代烯烃产物. 离子液体经简单处理后能多次循环使用. 此外, 初步探讨了该碱性离子液体在Perkin反应中的应用. 相似文献
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氯铝酸室温离子液体系中HCl促进的苯的烷基化反应研究 总被引:19,自引:0,他引:19
研究了少量HCL调变的氯铝酸室温离子液体超强酸催化体系中,苯与碳-12烯以及氯甲烷的烷基化反应,对于前一反应,以溶有HCL的氯铝酸室温离子液体为催化剂与没有HCL的相比,反应的产物分布不同,而后一反应过程中有HCL生成,与纯ALCL3作催化剂相比,催化活性显著提高,实验结果还表明,生成的烷基化产物不溶于离子液体,因而易于分离,催化剂可以重复使用。 相似文献
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为取代传统的有机溶剂,离子液体将为现代化学溶剂提供一种新颖而环境友好的选择,以1-丁基吡啶四氟硼酸盐为离子液体,实现了1,3-二羰基化合物的烷基化反应,提供了一种既方便又实用的操作方法。 相似文献
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以1-丁基3-甲基咪唑盐作为离子液体阳离子,与三种不同阴离子BF4、PF6、Tf2N组成性质不同的三种离子液体,催化呋喃类和丁炔二羧酸酯之间发生的Diels-Alder反应,合成了一系列化合物,研究了离子液体的催化效果。研究表明,呋喃类化合物的极性越低, Diels-Alder 反应的活性越高。在含硫的呋喃类化合物的反应中,当以 [Bmim]PF6 作为离子液体时,Diels-Alder 反应的产率可达到53%。另外,当 [Bmim]PF6 离子液体被吸附在硅胶表面上时,Diels-Alder的反应产率有所提高。 相似文献
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以1-丁基-3-甲基咪唑盐作为离子液体阳离子,与3种不同阴离子BF4、PF6、Tf2N组成性质不同的3种离子液体,催化呋喃类和丁炔二羧酸酯之间发生Diels-Alder反应,合成了一系列化合物,研究了离子液体的催化效果.研究结果表明,呋喃类化合物的极性越低, Diels-Alder反应的活性越高.在含硫的呋喃类化合物的反应中,当以[Bmim]PF6作离子液体时,Diels-Alder反应产率可达53%.当[Bmim]PF6离子液体被吸附在硅胶表面上时,Diels-Alder的反应产率有所提高. 相似文献
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首次通过不同阴离子的钾盐和不同的季铵化的咪唑,吡咯溴盐/氯盐进行离子交换,合成了一系列含氰基官能团的阴离子功能化离子液体。通过红外、核磁共振、质谱对离子液体的结构进行表征;通过TGA对离子液体的热稳定性进行测定,结果发现功能化离子液体具有良好的热稳定性,其分解温度在224-289℃范围内。将功能化离子液体[EMIm][N(CN)COC2H5]作为配体应用于无膦配体的Suzuki偶联反应,发现在反应中加入功能化离子液体[EMIm][N(CN)COC2H5]可以使反应收率提高10-20%。 相似文献
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低分子量的液态聚乙二醇(PEG)作为一种新型的绿色有机反应溶剂正受到人们的极大关注。PEG具有好的热稳定性、不挥发、不易燃、无毒、生物可降解、廉价易得,以及易于回收和循环使用。此外,PEG可以溶解众多的有机化合物和有机金属配合物。因此,PEG作为有机溶剂的替代品和作为均相催化剂的载体已经成功地应用到许多有机反应中,它们包括还原反应、氢化反应、氧化反应、不对称双羟基化反应、Heck反应、Suzuki交叉偶联反应、Michael加成反应、不对称Aldol反应、Baylis-Hillman反应、脂肪酶催化的反应和聚合反应等。本文对这一领域的研究进展作一综述。 相似文献
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《Surface and interface analysis : SIA》2018,50(10):927-938
As one of the simplest volatile organic compounds, glyoxal and its oxidation products were considered to be important precursors to aqueous secondary organic aerosol formation. Herein, we analyzed products from glyoxal oxidation by hydrogen peroxide in dry and liquid samples using time‐of‐flight secondary ion mass spectrometry (ToF‐SIMS). ToF‐SIMS spectra and spectral principal component analysis (PCA) were used to investigate surface oxidation products. Dry samples were prepared on clean silicon wafers. Liquid samples consisting of glyoxal and hydrogen peroxide (H2O2) were introduced to a vacuum compatible microfluidic reactor prior to UV illumination or dark aging followed by in situ liquid SIMS analysis. A number of reaction products were observed in both dry and liquid samples; different oligomers and carboxylic acids could be formed depending on reaction conditions. In addition, hydrolyzed products were observed in the liquid samples, but not in the dry samples. Although dry samples reveal some products of the aqueous process, they are not fully representative as results from those of the aqueous samples. Our findings suggest that the ability to characterize the liquid surface reaction products provides more realistic information of the reaction products associated with aqueous secondary organic aerosol formation in the atmosphere. Meanwhile, the high mass resolution spectra from the dry sample SIMS measurement are helpful to identify oxidation products in the liquid samples. 相似文献
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《Physics and Chemistry of Liquids》2012,50(5):652-660
The desulphurised experiment of an organic physical solvent of dimethyl sulphoxide (DMSO) mixed with a relatively small amount of Mn(II) catalyst, based on the novel desulphurisation technology using the organic solvent as absorbent, is studied. Results indicate that Mn(II) plays a significant catalytic role. Compared with pure physical solvent of DMSO, the purification efficiency of SO2 with a small amount of catalyst has been much improved, and its absorption and reaction mechanism by liquid absorption with catalysed reaction are discussed. 相似文献
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Laboratory Real‐Time and In Situ Monitoring of Mechanochemical Milling Reactions by Raman Spectroscopy 下载免费PDF全文
Dr. Davor Gracin Dr. Vjekoslav Štrukil Prof. Tomislav Friščić Dr. Ivan Halasz Dr. Krunoslav Užarević 《Angewandte Chemie (International ed. in English)》2014,53(24):6193-6197
Mechanistic understanding of mechanochemical reactions is sparse and has been acquired mostly by stepwise ex situ analysis. We describe herein an unprecedented laboratory technique to monitor the course of mechanochemical transformations at the molecular level in situ and in real time by using Raman spectroscopy. The technique, in which translucent milling vessels are used that enable the collection of a Raman scattering signal from the sample as it is being milled, was validated on mechanochemical reactions to form coordination polymers and organic cocrystals. The technique enabled the assessment of the reaction dynamics and course under different reaction conditions as well as, for the first time, direct insight into the behavior of liquid additives during liquid‐assisted grinding. 相似文献
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The ionic liquid 1-butyl-3-methyl-imidazolium hydrogen sulfate, [bmim]HSO4, efficiently catalyzes Paal–Knorr furan synthesis without any organic solvent. A wide range of aliphatic and aromatic 1,4-diketones easily undergo condensations to form furan derivatives, providing a general and convenient procedure. The Paal–Knorr reaction of ester-substituted 1,4-diketones is first reported. The ionic liquid can be recovered and reused for subsequent runs without any appreciable loss of efficiency. 相似文献
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Efficient synthesis of a variety of 3-substituted coumarins via NaOMe-catalyzed Knoevenagel condensation and one-pot preparation of 3,4-unsubstituted coumarins in the presence of NaOMe via Wittig reaction in room-temperature ionic liquids are described. Knoevenagel condensation of 2-hydroxybenzaldehyde with dimethyl- and diethylmalonate was performed with excellent yields in room-temperature ionic liquids. Although diethyl- and dimethylchloromalonates were mostly recovered unchanged in Knoevenagel condensation, higher conversions were observed via Wittig reaction of these compounds with 2-hydroxybenzaldehyde derivatives and triphenylphosphine. Other 2-hydroxybenzaldehyde derivatives, methyl- and ethylchloroacetates, were reacted in ionic liquids to afford simple coumarins in good yields. These reactions widen the applicability of ionic liquid in organic synthesis. 相似文献
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The solvent-free reduction of benzophenone and five substituted benzophenones with sodium borohydride to the corresponding alcohols was studied by thermal analysis, X-ray powder diffractometry, NMR spectroscopy, and scanning electron microscopy. In most cases, the reaction occurs via liquid eutectic phases that are formed between the benzophenone and the resulting benzohydrol. Nevertheless, this reaction can be carried out without the need for a solvent, leading to pure alcohol without side products. In some cases, heating may be necessary to achieve a reasonably short reaction time. In conclusion, this reaction type appears to be feasible as a preparative organic reaction that avoids a solvent.This revised version was published online in November 2005 with corrections to the Cover Date. 相似文献