用废胶裂解生产D_5工艺

废硅胶酸法裂解生产的DMC一般含D5约 6 % ,经催化平衡化反应可使D5的转化率达到近 30 %     

新洁尔灭催化剂制备苯甲酸的实验探讨

本文介绍了以甲苯为原料 ,以易购医用的新洁尔灭为催化剂的相转移催化法制备苯甲酸的实验过程 ,并讨论了新洁尔灭溶液的浓度对催化速度的影响     

Williamson法合成正丁醚

在相转移催化剂溴化四下基铵存在下,正了醇、正丁基溴和氢氧化钠在90℃反应二小时,合成了正丁基醚,收率79％以上。     

硒催化羰基化反应若干进展

采用廉价的催化剂代替昂贵的金属,低成本的一氧化碳代替氢气乃至光气,一直是人们追求的目标.综述了非金属硒在含碳、氮、氧、硫类有机化合物中的催化羰基化反应,以及在Se/CO/H2 O体系中一些有机化合物的高选择性还原反应,介绍了近期的一些新进展.催化剂量的硒在温和条件下,即可活化一氧化碳而直接进行羰基化和还原反应,特别是发展了将硝基化合物的还原羰基化与胺的氧化羰基化相结合,合成一系列精细化学品和生物化学品.催化剂硒在催化反应中表现出反应过程相转移的特性,兼具了多相催化与均相催化的优点,是反应过程相转移概念中的典型实例.硒催化反应的特点是反应物转化率高,反应选择性专一,原子经济性高,对环境友好,且可部分替代光气合成法     

H_6P_2W_(18)O_(62)/SiO_2催化合成环己酮1,2-丙二醇缩酮

以二氧化硅负载Dawson型磷钨酸H6P2W18O62/SiO2为催化剂,采用环己酮和1,2-丙二醇为原料合成环己酮1,2-丙二醇缩酮.探讨H6P2W18O62/SiO2对缩酮反应的催化活性,较系统地研究了各种因素对产物收率的影响.实验表明:H6P2W18O62/SiO2是合成环己酮1,2-丙二醇缩酮的良好催化剂,在n(环己酮)∶n(1,2-丙二醇)=1∶1.5,带水剂环己烷6 mL,催化剂用量占反应物料总质量的0.6%,反应时间60 min的优化条件下,环己酮1,2-丙二醇缩酮的收率可达85.4%.     

Probing transient protein-mediated DNA linkages using nanoconfinement

We present an analytic technique for probing protein-catalyzed transient DNA loops that is based on nanofluidic channels. In these nanochannels, DNA is forced in a linear configuration that makes loops appear as folds whose size can easily be quantified. Using this technique, we study the interaction between T4 DNA ligase and DNA. We find that T4 DNA ligase binding changes the physical characteristics of the DNA polymer, in particular persistence length and effective width. We find that the rate of DNA fold unrolling is significantly reduced when T4 DNA ligase and ATP are applied to bare DNA. Together with evidence of T4 DNA ligase bridging two different segments of DNA based on AFM imaging, we thus conclude that ligase can transiently stabilize folded DNA configurations by coordinating genetically distant DNA stretches.     

Acidic open-cage solution containing basic cage-confined nanospaces for multipurpose catalysis

The nanoscale chemical spaces inherent in porous organic/coordination cages or solid/liquid materials have been continuously explored for their nanoconfinement effect on selective adsorption and reaction of small gas or organic molecules. Herein, we aim to rationalize the unconventional chemical reactivities motivated by the cage-confined nanospaces in aqueous solutions, where the robust yet permeable nanospaces defined by the open cages facilitate dynamic guest exchange and unusual chemical reactions. The high positive charges on [(Pd/Pt)₆(RuL₃)₈]²⁸⁺ nanocages drive imidazole–proton equilibrium to display a significantly perturbed pK_a shift, creating cage-defined nanospaces in solution with distinct intrinsic basicity and extrinsic acidity. The supramolecular cage effect plays pivotal roles in elaborating robust solution nanospaces, controlling ingress-and-egress molecular processes through open-cage portals and endowing nanocages with transition-state stabilization, amphoteric reactivities and the phase transfer of insoluble molecules, thus promoting chemical transformations in unconventional ways. Consequently, a wide range of application of cage-confined catalysis with anomalous reactivities may be expected based on this kind of open-cage solution medium, which combines cage nanocavity, solution heterogeneity and liquid-phase fluidity to benefit various potential mass transfer and molecular process options.