Highly efficient deprotection of phenolic tetrahydropyranyl and methoxymethyl ethers and sequel cyclization to indanones using Sn(IV)Cl4 catalyst

Sn(IV)Cl₄ catalyst provided a rapid and efficient deprotection method for the phenolic THP and MOM ethers and sequel intramolecular Friedel–Crafts alkylation reaction of THP and MOM protected chalcone epoxides under mild conditions. The reaction took 2–3 min to give the products in excellent yield (90–98%) at 0 °C without affecting the other functional groups.     

Magtrieve™: a convenient catalyst for the oxidation of alcohols

We find that Magtrieve™ (CrO₂) catalyzes the oxidation of a wide variety of alcohols with periodic acid as the terminal oxidant. Mild conditions, short reaction times, and facile aqueous work-up make this a most attractive method. Olefins are not oxidized under these conditions; thus alcohols react selectively in the presence of alkenes. Conditions have been optimized with respect to catalyst loading, solvent, and co-oxidant; and the scope of the reaction includes primary and secondary benzylic, allylic, and aliphatic alcohols.     

Separation and determination of homogenous fatty alcohol ethoxylates by liquid chromatography with mulitstage mass spectrometry

Alcohol ethoxylates (AEs) are a significant component of a stream of surfactants directed to the aquatic environment. The aim of this work was the investigation of the dependence of the analytical signals of homogeneous AE homologues on liquid chromatography with tandem mass spectrometry conditions, as well as the separation of AEs from the water matrix and, on this basis, the development of an analytical procedure suitable for the determination of AEs in environmental samples. Homogeneous homologues containing dodecyl moiety and 2–9 oxyethylene subunits were investigated. The analytical signals of the investigated homologues were optimized in terms of concentration of ammonium acetate in the mobile phase (optimum 5 mM) and a column temperature (optimum 35°C) of the liquid chromatography with tandem mass spectrometry system. A separation of AEs from the water matrix by liquid–liquid extraction (ethyl acetate, chloroform) or solid‐phase extraction (C₁₈, styrene divinylbenzene, H‐RX) was investigated. In a model investigation, the best recoveries (>90%) were obtained with a styrene divinylbenzene cartridge eluted with a 1:1 mixture of chloroform and methanol. However, much worse recoveries were obtained from the river water sample. Better results were obtained for liquid–liquid extraction with ethyl acetate. Recoveries of 62–80% were obtained for homologues having 4–9 oxyethylene subunits, at the lowest spike.     

无催化剂下醇和酚的高效O-硅基化

硅醚类化合物广泛应用于有机合成、 分离分析和精细化工等领域. 六甲基二氮硅烷是近年来发展的一种新型硅基化试剂, 被用于硅醚的高效合成, 但由于六甲基硅烷较为惰性, 通常需要加入催化剂活化. 本文报道了一种无催化剂下醇、 酚的高效硅基化新方法. 研究结果表明, 该方法可以兼容一级苄醇、 杂芳基苄醇、 脂肪醇, 二级醇甚至三级醇, 多数反应可以实现定量转化, 无需柱层析即可实现产物的分离纯化. 该方法可以拓展到酚的高效硅醚化, 也可以很方便地放大到100 mmol, 收率达到99%, 表明该方法具有较好的实用价值.     

Recent developments in oxidative biocatalytic cascades

Biocatalytic cascades that involve enzymatic oxidation as one or more key steps are powerful tools to access valuable chemicals with various functionalizations starting from simple substrates, without the isolation of intermediates. This review discusses the recent advances in oxidative cascades, with perspectives given on the current limitations and future developments. The strategies employed to achieve efficient supply of redox cofactors are also highlighted. The examples include cascades that begin with alkene epoxidation, alkane hydroxylation, alcohol oxidation or amine oxidation. These oxidative steps are followed by a variety of enzyme-catalyzed functionalizations, producing a diverse range of high-value products.     

Selective alcohol oxidation catalysed BY FeCl3 /novel glycine functionalised IONIC liquid

An effective and eco-friendly technique were designated for quick alcohol oxidation by glycine functionalised imidazolium ionic liquids in presence of FeCl₃ at ambient-temperature. No over the primary alcohols oxidation to carbonyl compounds was observed in presence of this FeCl₃/[Gmim]Cl. These benefits of the catalyst resulted mainly from the circumstance with alcohols-H₂O₂, and the Fe³⁺ was coordinated by the immobilized IL to permitted both reactants to access the active sites of the catalyst effectively. The catalyst recycled nine times without loss of activity.     

电催化醇选择性氧化为醛酮的研究进展

醇选择性氧化为相应的羰基化合物是有机化学中最常用的生成羰基化合物的反应,电催化氧化具有反应条件温和、环境友好等优点,是一种非常有前途的醇催化氧化绿色生产工艺。本文综述了直接和间接电催化氧化反应的方法,并对各类体系的催化效果进行了简要介绍。     

TEMPO/固载化席夫碱铜配合物共催化剂在分子氧氧化苯甲醇过程中的催化性能

通过大分子反应,将苯甲醛(BA)和邻氨基苯酚(AP)形成的双齿席夫碱配基键合在交联聚甲基丙烯酸缩水甘油酯(CPGMA)微球表面,形成固载有席夫碱配基的载体微球BAAP-CPGMA,再通过与铜盐的配位螯合反应,制备了固载有席夫碱铜配合物的微球[Cu(BAAP)2]-CPGMA.将该固载化铜配合物与均相的2,2,6,6-四甲基哌啶氮氧自由基(TEMPO)构成共催化体系TEMPO/[Cu(BAAP)2]-CPGMA,应用于分子氧氧化苯甲醇的催化氧化过程.我们考察了该共催化体系的催化性能,并探索研究了催化氧化机理.实验结果表明,共催化体系TEMPO/[Cu(BAAP)2]-CPGMA可在温和条件下(室温、常压的氧气)高效地将苯甲醇氧化为苯甲醛(选择性100%,苯甲醛产率93%),并具有良好的循环使用性能.     

基于四氮配体的铜配合物/TEMPO催化的苄醇与烯丙基醇的氧化反应

发展了非血红素类四氮配体的铜配合物和2,2,6,6-四甲基哌啶-氮-氧自由基(TEMPO)相结合的催化体系,应用于分子氧参与的伯醇氧化反应.该体系具有条件温和、高效、高选择性、无需任何助剂和底物(包括苄醇、烯丙基醇和含杂原子伯醇)使用性强等优点.此外,利用高分辨质谱和紫外-光谱等对反应活性中间体进行了初步探讨.     

磷酸铜锆催化剂上醇选择性氧化（英文）

The catalytic activity of copper zirconium phosphate(ZPCu) in the selective oxidation of alcohols to their corresponding ketones or aldehydes, using H2O2 as an oxidizing agent, was studied. The oxida‐tion reaction was performed without any organic solvent, phase‐transfer catalyst, or additive. Steric factors associated with the substrates influenced the reaction. The catalyst was characterized using X‐ray diffraction, inductively coupled plasma atomic emission spectroscopy, energy‐dispersive X‐ray spectroscopy, and scanning electron microscopy. It was shown that the interlayer distance increased from 0.74 to 0.80 nm and the crystallinity was reduced after Cu2+ intercalation into the layers. This catalyst can be recovered and reused three times without significant loss of activity and selectivity.