环己烯可控选择性催化氧化的最新进展（英文）

环己烯是一种价格低廉易得的大宗化工原料,通常由苯选择性加氢来合成.该化合物虽然分子结构简单,但却有两个不同的反应位点.随着反应所发生的位点与反应深度的不同,环己烯的氧化反应可生成一系列不同氧化程度与官能团的产物的混合物.环己烯双键的氧化反应,可生成环氧环己烷,而环氧环己烷进一步水解,则生成1,2-环己二醇,其中,随着使用不同催化剂导致的反应机理差异,产物可分别为顺式或反式结构.在强氧化剂作用下,环己烯双键充分氧化,可生成己二酸.环己烯烯丙基C-H键氧化,则可随着反应深度的不同分别生成2-环己烯醇与2-环己烯酮.上述环己烯氧化产物都是重要的有机化工中间体.其中,环氧环己烷是农药杀螨剂的主要原料,也用作合成表面活性剂、橡胶助剂等有用产品;1,2-环己二醇可用于合成化工中间体邻苯二酚;环己烯醇与环己烯酮是生产除草剂、香水、药物的原料;己二酸则是合成重要产品尼龙-6,6的原料.因此,随着市场需求的变化,对环己烯氧化反应进行选择性控制,提高其中某种产物的选择性,是重要的化工合成技术,有着巨大的应用潜力;从而控制反应历程与深度是有机化工合成工艺研究中最具有挑战性的研究课题之一,有很好的科学意义.目前,人们对环己烯的选择性控制氧化反应已进行了广泛的研究.该反应可使用金属催化剂,包括铁、钴、镍、锰、铬、钒、钨、铜、钛、金、银、铋、锇、钼、镉等;也可以使用无金属催化剂如磺酸、2,2,2-三氟苯乙酮、类石墨相碳化氮(g-C3N4)等.反应可使用化学氧化剂,如间氯过氧苯甲酸、醋酸碘苯、过氧叔丁醇等,也可使用更加清洁的过氧化氢、分子氧.研究表明,催化剂的种类、用量,以及反应溶剂、温度、氧化剂等一系列外在条件,可以影响环己烯氧化反应的选择性.本文以反应所使用的氧化剂归类,总结了该课题的最新研究进展,以期对从事环己烯可控选择性氧化的学术与工业研究人员有所帮助.     

Recent advances in alkaline hydrogen oxidation reaction

The development of highly efficient electrocatalysts toward hydrogen oxidation reaction(HOR) under alkaline media is essential for the commercialization of alkaline exchange membrane fuel cells(AEMFCs). However, the HOR kinetics in alkaline is two to three orders of magnitude slower than that in acid. More critically, fundamental understanding of the sluggish kinetics derived from the p H effect is still debatable. In this review, the recent development of understanding HOR mechanism and rationa...     

Preparation and mechanism of Fe-K/AC for catalytic oxidation of hydrogen sulfide

采用正交实验法制备了负载铁、钾的活性炭(Fe-K/AC)热煤气催化氧化脱硫剂,考察了活性组分铁、钾含量、二价铁和三价铁比例、煅烧温度对催化氧化脱硫反应活性的影响.由正交实验极差分析可知,各因素影响程度依次为:钾含量＞铁含量＞煅烧温度＞ Fe2+/Fe3+,最优制备条件为,铁含量0.5％、钾含量5.0％、煅烧温度600℃、Fe2+/Fe3+比0.5.通过对脱硫剂的孔隙结构和表面形貌分析可知,活性炭表面负载的铁金属氧化物具有催化氧化硫化氢生成单质硫的活性,碱金属氧化物具有协同作用,可以改变表面酸碱性,促进硫化氢的催化转化,但过高的金属氧化物负载量会阻塞孔道,减小反应比表面积,从而降低脱硫剂的反应活性.     

Fe-K/AC催化氧化脱硫剂制备及反应机理研究

采用正交实验法制备了负载铁、钾的活性炭(Fe-K/AC)热煤气催化氧化脱硫剂,考察了活性组分铁、钾含量、二价铁和三价铁比例、煅烧温度对催化氧化脱硫反应活性的影响。由正交实验极差分析可知,各因素影响程度依次为:钾含量>铁含量>煅烧温度> Fe²⁺/Fe³⁺,最优制备条件为,铁含量0.5%、钾含量5.0%、煅烧温度600 ℃、Fe²⁺/Fe³⁺比0.5。通过对脱硫剂的孔隙结构和表面形貌分析可知,活性炭表面负载的铁金属氧化物具有催化氧化硫化氢生成单质硫的活性,碱金属氧化物具有协同作用,可以改变表面酸碱性,促进硫化氢的催化转化,但过高的金属氧化物负载量会阻塞孔道,减小反应比表面积,从而降低脱硫剂的反应活性。     

Studies of supported oxide catalysts in the direct selective oxidation of hydrogen sulfide

Catalytic activity of oxide catalysts (Fe, Mn, Co, Cr, V) supported on spherical (, , +)Al₂O₃ has been studied in the reaction H₂S+O₂1/n S_n=H₂O. Experiments were carried out at 423–573 K in a flow vibrofluidized catalyst bed reactor with a stoichiometric mixture H₂S/O₂.

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(Fe, Mn, Co, Cr, V), (, , +) H₂S+O₂1/n S_n+H₂O. 423–573 , H₂S/O₂.

     

Solvent- and metal-free selective oxidation of thiols to disulfides using I2/DMSO catalytic system

We describe herein a simple, fast and inexpensive protocol for the oxidative coupling of thiols employing a stoichiometric amount of DMSO and iodine as the catalyst. Various aromatic disulfides were obtained in good to excellent yields in short reaction times at room temperature, while aliphatic disulfides were achieved in good yields when the reactions were conducted under microwave irradiation.     

Micellar catalytic effects in the oxidation of methyl phenyl sulfide with hydrogen peroxide and the hydrogen peroxocarbonate anion

The kinetics and mechanism of the catalysis by ammonium hydrogen carbonate oxidation of methyl phenyl sulfide with hydrogen peroxide has been investigated. Using the classical pseudo-phase model of micellar catalysis, the basic parameters of the catalytic process have been determined: the binding constants of H₂O₂, the HCO ₄ ⁻ anion, and the substrate to the surface of the micelles, and also the second order rate constants for the oxidation of methyl phenyl sulfide in the micellar phase. __________ Translated from Teoreticheskaya i éksperimental’naya Khimiya, Vol. 42, No. 5, pp. 281–287, September–October, 2006.     

Chiral ionic liquids for catalytic enantioselective sulfide oxidation

A new class of catalytic ionic liquids, containing chiral tungstate(VI) anions, gives enantiomeric excesses up to 96% for sulfide oxidation to sulfoxides.     

The selective catalytic oxidation of toluene

It was found for the first time that the selectivity of toluene transformations into benzaldehyde and benzoic acid decreased and into maleic anhydride and deep oxidation products increased as the ability of vanadium-containing catalysts of toluene oxidation to generate the singlet form of molecular oxygen grew. A scheme of the formation of the products of toluene oxidation with oxygen was suggested. Quinones were shown to be final rather than intermediate oxidation products. The selectivity of the reaction with respect to mild oxidation products in the presence of V₂O₅, MoO₃, and V₂O₅ · MoO₃ could be increased by changing the temperature of catalyst preparation from 400 to 500°C.     

Recent advances of Rh-based intermetallic nanomaterials for catalytic applications

Rhodium (Rh) has received widespread attention in fundamental catalytic research and numerous industrial catalytic applications. Compared to homogeneous catalysts, Rh-based nanomaterials as heterogeneous catalysts are much easier to separate and collect after usage, making them more suitable for commercial use. To this purpose, there has been a constant demand in constructing stable and highly active Rh-based nanomaterials. In contrast to Rh-based solid solutions with a random distribution of metallic atoms in the lattice, Rh-based intermetallic compounds (IMCs) with a fixed stoichiometric ratio and an ordered atomic arrangement can ensure the homogenous distribution of active sites and structural stability in the catalytic process. In this review, we concentrate on the fabrication of Rh-based IMCs for catalytic applications. Various synthetic methods and protocols for the controlled preparation of Rh-based IMC are illustrated. Meanwhile, the catalytic applications and corresponding catalytic mechanisms are discussed. In addition, personal perspectives about the remaining challenges and prospects in this field are provided. We believe this review will be useful in directing the development of Rh-based IMC catalysts for heterogeneous catalysis.     

Catalytic partial oxidation of hydrogen sulfide on chabazite tuff

The catalytic activity of a chabazite tuff in the partial oxidation of H₂S to sulfur has been determined. The effects of temperature, feed concentration and chemical composition of the tuff on H₂S conversion and selectivity to sulfur have been investigated. Encouraging results in view of a possible use in H₂S removal processes have been obtained.

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H₂S . , H₂S . H₂S.

     

Development of a highly selective fluorescence probe for hydrogen sulfide

Hydrogen sulfide (H(2)S) has recently been identified as a biological response modifier. Here, we report the design and synthesis of a novel fluorescence probe for H(2)S, HSip-1, utilizing azamacrocyclic copper(II) ion complex chemistry to control the fluorescence. HSip-1 showed high selectivity and high sensitivity for H(2)S, and its potential for biological applications was confirmed by employing it for fluorescence imaging of H(2)S in live cells.     

Recent advances on nonenzymatic catalytic kinetic resolution of diols

As one of the most efficient and straight-forward strategies for obtaining optically pure compounds, catalytic kinetic resolution has been widely used in laboratory and industry. Although nonenzymatic catalytic kinetic resolution of secondary alcohol has been well developed, it still remains a formidable challenge for kinetic resolution of diols which play a significant role in natural products synthesis. The purpose of this digest is to present the recent progress on nonenzymatic catalytic kinetic resolution of representative diols.     

Recent advances on catalytic asymmetric difunctionalization of 1,3-dienes

1,3-Dienes and derivatives are either feedstock chemicals or easily available materials. Catalytic difunctionalization of 1,3-diene is one of the most powerful methods for carboncarbon bond formation with rapid increase of the molecular complexity and synthetic value in an atom economic way. By choosing proper metals and chiral ligands, a variety of catalytic asymmetric difunctionalization of conjugated dienes in a highly regioselective fashion have been reported. In this digest review, we will summarize recent advances on this topic based on different metals. We will also introduce unique phenomena that include reversal of regio- and diastereoselectivity.     

Recent advances in catalytic asymmetric epoxidation using the environmentally benign oxidant hydrogen peroxide and its derivatives

There has been a recent drive to develop asymmetric catalytic methods to produce epoxides using environmentally benign oxidants, especially hydrogen peroxide. This critical review discusses the advances that have been made using both metal-based and organocatalytic homogeneous catalysts (142 references).     

Study of the catalytic reaction of n-dodecanol with hydrogen sulfide

The kinetic studies of the gas-phase catalytic reaction of n-dodecanol with hydrogen sulfide have revealed a consecutive-parallel route. The product n-dodecanethiol partially decomposes yielding dodecene, and the alcohol is simultaneously dehydrated to olefin and di-n-dodecyl ether.     

非金属催化剂在催化环氧化物和CO2合成环状碳酸酯中的研究进展

随着科学技术的进步和工业化的发展,大量化石燃料被消耗,大气中二氧化碳浓度急剧增加,导致温室效应加剧,严重威胁到人类的生存和发展。基于可持续发展的思想,利用储量丰富且廉价的二氧化碳作为 C1资源替代有毒的气体(如一氧化碳和光气等)制备具有广泛应用的环状碳酸酯,不仅满足“绿色化学”的要求,而且符合“原子经济性”的原则。迄今为止,大量用于催化二氧化碳和环氧化物环加成反应合成环状碳酸酯的催化剂,包括均相催化剂(如金属卤化物、有机碱、离子液体和金属配合物),多相催化剂(如金属氧化物、负载型催化剂、有机聚合物、金属有机框架材料和碳材料等)被报道。其中金属催化剂占主导地位,大多表现出优异的催化活性。然而,目前可供开采的金属矿越来越少,大多数金属的回收再利用率较低,重金属污染日趋严重。因此,开发新型、廉价、绿色、高效、循环性和稳定性好的非金属催化剂具有重要意义。
　　本文主要介绍了近3年以来用于催化二氧化碳和环氧化物环加成反应合成环状碳酸酯的非金属催化剂,主要包括有机碱、离子液体、固载型催化剂、有机聚合物和碳材料等。概括了不同种类催化剂的设计思想及其催化反应机理,重点阐述了分子内以及分子间各种功能基团的协同作用对环加成反应的影响。通过比较发现,具有“C–N=C”结构的有机碱活性相对较高,氢键给体和亲核物质都能与有机碱协同作用提高其催化活性;传统离子液体的活性一般不理想,氢键给体如羟基和羧基的引入有利于促进环加成反应,且多阳离子和多氢键给体功能化的离子液体表现出更高的催化活性;负载型催化剂中,载体和活性组分之间的协同作用有利于加速环加成反应的进行,多种功能基团负载和以共价键方式多层固载能更好地提高催化剂稳定性和催化活性;利用非烯烃化合物制得的活性组分位于主链的多孔有机聚合物,催化活性和稳定性大多高于活性组分位于侧链的烯烃聚合物;碳材料催化剂中,引入不饱和的 N物种(如伯胺和吡啶氮),有利于 CO2的吸附和活化,能促进环加成反应。此外,利用密度泛函的方法,计算模拟催化反应过程,能更好地揭示反应机理,并为设计和制备高效的催化剂提供理论指导。
　　该领域目前面临的重要挑战是研发可以同时实现二氧化碳捕获和转化的新型、环保和高效非金属催化剂,终极目标是利用多孔催化材料在常温和常压下直接捕获工业废气中的二氧化碳,并利用捕获的二氧化碳实现环状碳酸酯的连续生产。基于协同催化的设计思想,利用多种基团功能化的策略合成高效吸附和活化二氧化碳以及开环活化环氧化物的非金属催化剂,有望实现上述目标。     

氮掺杂石墨烯的生长机理及其在乙苯选择性氧化中的应用

以热解氧化石墨烯材料为碳基底,分别使用有机氮源和无机氮源对其进行氮掺杂处理,制备了一系列氮掺杂石墨烯材料.采用透射电子显微镜、扫描电子显微镜、拉曼光谱和X射线光电子能谱等表征方法考察了氮掺杂石墨烯的生长机理.结果表明,随着制备过程中退火温度的改变,氮掺杂石墨烯中不同氮物种的含量有显著差别.这种差异是由不同氮物种化学环境的差异所导致的.所制备的含氮石墨烯材料对乙苯选择性氧化制苯乙酮反应均表现出优良的催化活性.其中,石墨氮的含量对于提高苯乙酮收率起到至关重要的作用.此外,通过氧化剂控制活化的方法可以消除过多的结构缺陷和过量氮掺杂对催化反应的不利影响,有效提升氮掺杂石墨烯的催化活性.