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环丙烷类化合物不仅广泛地存在于药物和生物活性分子中(Scheme 1)[1],同时环丙烷类化合物也可进行多种官能团转化,因此该类化合物在有机合成领域是一种非常重要的合成子.在复杂分子的合成和药物开发中,建立一种普适的方法构建手性的多官能团化环丙烷类化合物非常重要[2]. 相似文献
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五氧化二钒催化环己烯烯丙位氧化 总被引:5,自引:0,他引:5
研究了以五氧化二钒为催化剂,以过氧化氢水溶液为氧源氧化环己烯. 考察了溶剂种类、溶剂用量、催化剂用量和反应温度等因素对催化剂性能的影响. 结果表明,常温下环己烯在此催化体系中主要发生烯丙位氧化反应生成环己烯酮. 溶剂的种类对催化活性和烯丙位酮式氧化的选择性具有较大的影响,丙酮是该反应的合适溶剂. 在丙酮与环己烯的体积比为4, 五氧化二钒与环己烯的质量比为1∶40, 过氧化氢与环己烯的摩尔比为3和反应温度为20 ℃的条件下,反应24 h后的环己烯转化率可达60%以上,环己烯酮选择性可达85%. 催化反应过程中丙酮可能与过氧化氢作用生成过氧化酮,从而进行氧转移,催化剂则经过V5+/V4+物种的循环使环己烯氧化成为环己烯酮等产物. 相似文献
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报道了铜催化苯甲酰亚胺高烯丙酯底物的分子内胺化全氟烷基化反应. 该反应以全氟碘代烷为全氟烷基化试剂, 醋酸铜为催化剂, 邻菲啰啉为配体, 在醋酸银存在下以中等的收率实现苯甲酰亚胺高烯丙酯底物末端双键的胺化全氟烷基化, 最终生成1,3-噁嗪类分子. 多种官能团取代的苯甲酰亚胺高烯丙酯和具有不同碳链长度的全氟碘代烷烃都能适用于该反应, 为多氟烷基取代的1,3-噁嗪类化合物的合成提供了一种简洁的方法. 多氟烷基取代的1,3-噁嗪类化合物还可在温和条件下高效转化为γ氨基醇衍生物. 初步的机理研究证明该反应经历了全氟烷基自由基对碳碳双键的亲电加成, 之后苯甲酰亚胺基团作为分子内亲核性胺源经历分子内亲核取代途径生成1,3-噁嗪骨架. 相似文献
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Super acidic catalyst SO42-/ZrO2 was prepared and characterized by XRD,IR,and Py-IR. Selectively catalytic gas phase flow reactions of benzene and propene over the catalyst were carried out in a made-to-measure high pressure flow reactor with a thermometer and a condenser. The benzene and propene were kept in pressure tanks at 8 : 1 ratio with N2 gas at 4. 0 MPa. The reactants were pumped into the quantifier where the pressure was maintained by N2 gas at 8. 0 MPa. They were then pumped into the reaction reactor using catalytic synthesis of isopropyl benzene. The collected liquid phase products were analyzed using GC-MS. Product analyses were carried out on SE-54. The effect of the preparative condition on the catalytic synthesis of isopropyl benzene over the catalysts has been tested. The result shows that the SO42-/ZrO2 can be used as a catalyst for the title reaction,and shows higher conversion(99.2%)for the propene and higher selectivity(93.3%)for the isopropyl benzene when the catalyst is preparated in some condition. 相似文献
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研究了不同硅铝比及磷、锡氧化物和水汽改性β沸石上甲苯与丙烯烷基化反应和产物IPT各异构体分布,发现具宽敞三维通道结构的β沸石的中强酸位是烷基化反应的活性中心,酸密度高的低硅铝比β沸石催化所得IPT混合液中邻位异构体少,引起烷基化反应降活的主要因素是甲苯的多烷基化物.通过水汽或氧化锡改性Hβ(26),在充分保留酸密度的同时,减弱酸强度和适度调低B/L酸位数比例,可以达到降低IPT混合液中o-IPT低于3.3%和抑制甲苯多烷化物,满足生产m-或p-甲酚所需原料IPT的质量要求.为将现在通用的甲苯-丙烯烷基化后接烷基化产物异构化的二步法生产工艺简化为一步法工艺提供了催化科学基础. 相似文献
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萘与丙烯在脱铝丝光沸石上的烷基化反应 总被引:4,自引:0,他引:4
Shape selective alkylation of polynuclear aromatics has begun to receive increasing attention. 2,6 dialkylnaphthalenes are important raw materials for manufacturing high quality polyester fibers and plastics. Understanding of the reaction and the catalysis for conversion of polycyclic aromatic hydrocarbons is needed both from fundamental and practical view points. In this paper, alkylation of naphthalene with propene over a series of dealuminated mordenite with different Si/Al ratios was carried out in an autoclave with an electromagnetical stirrer. Textural property of the dealuminated mordenite was determined by nitrogen adsorption. The amount of the acid sites was measured by NH 3 TPD. The catalytic activity of HM and β shape selectivity for products increased with increasing the Si/Al ratio in HM. Moreover, the selectivity for alkylation with propene was also increased by dealumination treatment. The increase of the catalytic activity was attributed to the formation of mesopores, which significantly promoted the diffusion of reactants and products in mordenite. It was suggested that the increase of β selectivity resulted from the elimination of acid sites from the external surface, and the selectivity for alkylation with propene was improved owing to the creation of the interconnection between 12 ring and 8 rimg channels by dealumination. 相似文献
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纳米级MCM-49分子筛催化苯与1-十二烯烷基化反应的性能 总被引:7,自引:0,他引:7
在低碱度下合成了纳米级MCM-49分子筛,采用XRD,TEM,NH3-TPD,吸附吡啶的红外光谱和异丙苯裂解等技术对分子筛进行了表征. 催化剂评价结果表明,纳米级MCM-49分子筛在30~160 ℃下对苯与1-十二烯的烷基化反应具有良好的催化性能,烯烃的转化率高于99.6%,直链烷基苯的选择性大于97%,2-和3-位直链烷基苯的选择性大于67.5%. 常规的微米级MCM-49分子筛在低温下的催化活性低于纳米级MCM-49分子筛. ZSM-5,M型分子筛和MCM-41分子筛催化烷基化反应的活性较低,Y型分子筛虽具有较高的催化活性,但生成2-和3-位直链烷基苯的选择性明显低于MCM-49. MCM-49的骨架结构与MCM-22相似,晶体外表面上含有大量的12元环孔穴,该结构有利于烷基化反应的进行. 相似文献
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