共查询到18条相似文献,搜索用时 375 毫秒
1.
采用甲醇蒸气作为碳源对甲基弯菌IMV 3011进行驯化培养,然后逐渐增加液态甲醇的浓度使其适应,得到了能耐受甲醇(φ(MeOH)=1%)的甲基弯菌IMV 3011.对甲基弯菌IMV 3011进行甲烷-甲醇共培养可得到大量具有甲烷单加氧酶(MMO)活性的细胞.研究了添加甲醇对甲基弯菌IMV 3011生长和MMO活性的影响,发现甲醇能够促进甲基弯菌IMV3011的生长.在批式反应器中,添加甲醇能够提高甲基弯菌IMV 3011的催化环氧化能力,说明甲醇可以作为电子供体通过再生辅酶NADH驱动环氧丙烷合成.考察了在膜反应器中用细胞悬浮液连续合成环氧丙烷的可行性.结果表明,通过192 h连续抽提产物环氧丙烷,避免了其对环氧化反应的抑制,流出液中环氧丙烷的浓度仍保持在1.35 mmol/L左右. 相似文献
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《分子催化》2012,26(4)
以苯乙烯、环己烯和反式二苯乙烯为烯烃底物,以双氧水、叔丁基过氧化氢和异丙苯过氧化氢为氧化剂,以苯环上对位和邻位氯取代的四苯基金属卟啉为仿生催化剂,对烯烃的催化环氧化反应进行了对比研究.讨论了不同氯取代位的四苯基金属卟啉对烯烃环氧化性能的影响.实验结果表明,在没有助催化剂存在下,邻位氯代的四(2,6-二氯苯基)铁(锰)卟啉对烯烃的环氧化具有优异的催化性能,烯烃底物的转化率和环氧选择性都比对位氯代的四苯基铁(锰)卟啉高,且反应条件温和.其中FeⅢ(TDCPP)Cl的催化性能最好,环氧化选择性最高,催化氧化苯乙烯时,环氧苯乙烷的选择性达到了90.4%.相同金属离子不同配体的金属卟啉传递氧原子的能力为TDCPP〉T(p-Cl)PP〉TPP.氧化剂的结构对环氧化物的选择性有较大影响.过氧键连有吸电子基团的异丙苯过氧化氢对环氧化物的选择性最高.根据实验结果,对金属卟啉催化环氧化机理进行了分析. 相似文献
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苯环上氯取代位对四苯基金属卟啉催化烯烃环氧化性能的影响 总被引:1,自引:1,他引:0
以苯乙烯、环己烯和反式二苯乙烯为烯烃底物,以双氧水、叔丁基过氧化氢和异丙苯过氧化氢为氧化剂,以苯环上对位和邻位氯取代的四苯基金属卟啉为仿生催化剂,对烯烃的催化环氧化反应进行了对比研究.讨论了不同氯取代位的四苯基金属卟啉对烯烃环氧化性能的影响.实验结果表明,在没有助催化剂存在下,邻位氯代的四(2,6-二氯苯基)铁(锰)卟啉对烯烃的环氧化具有优异的催化性能,烯烃底物的转化率和环氧选择性都比对位氯代的四苯基铁(锰)卟啉高,且反应条件温和.其中FeⅢ(TDCPP)Cl的催化性能最好,环氧化选择性最高,催化氧化苯乙烯时,环氧苯乙烷的选择性达到了90.4%.相同金属离子不同配体的金属卟啉传递氧原子的能力为TDCPP>T(p-Cl)PP>TPP.氧化剂的结构对环氧化物的选择性有较大影响.过氧键连有吸电子基团的异丙苯过氧化氢对环氧化物的选择性最高.根据实验结果,对金属卟啉催化环氧化机理进行了分析. 相似文献
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甲基单胞菌GYJ3催化环氧丙烷的半连续合成 总被引:3,自引:0,他引:3
利用含有甲烷单加氢酶(MMO)的甲烷氧化细菌整催化丙烷环氧化制取环氧丙烷,其产物抑制和辅酶NADH消耗是反应难以连续进行的主要原因,采用甲烷再生NADH,研究了丙烯和甲烷共氧化和氧物氧丙烷积累对甲基单胞菌GYJ3的环氧化活性的影响,并考察了在具有产物连续收系统的两段式生物反应器中用细菌胞悬浮液半连续生产环氧丙烷的可行性,将再生和环氧化过程分开进行,以减小甲烷和丙烯的竞争抑制,通过连续抽提产物环氧丙烷,克服了产物抑制,该半连续过程分别在不同的温度下共进行了70h,产生环氧丙烷438μmol。 相似文献
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详细研究了Ti─Si沸石在H_2O_2存在下对氯丙烯的环氧化、苯乙烯的氧化和环己烯的氧化等反应的催化作用.发现上述三种结构的烯烃其主要定向产物并不一致:氯丙烯氧化产物主要为环氧氯丙烷,苯乙烯氧化主要产物为苯乙醛、环己烯氧化主要产物为环己二酮.说明烯烃氧化的主要定向产物的结构依赖于有机底物的结构,并不全都给出环氧产物.在三个反应中,Ti─Si沸石均表现出显著的催化活性,这可能与沸石骨架中钛的存在有关.发现在氯丙烯环氧化反应中,只有TS-1及TS-2表现出环氧化活性.推测沸石骨架位中存在的钛在氧化反应中起重要作用. 相似文献
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1,2-二醇主要由环氧化合物水合产生、广泛用于防冻剂,聚酯树脂和医药等化学品中间体的生产.研究表明,具有Lewis酸性的含锡沸石分子筛在环氧化物的水合反应中表现出优异的催化性能.环氧化合物是众所周知的碳亲电体之一,主要由烯烃环氧化生成.含Ti(Ⅳ)沸石,如Ti-Beta和TS-1,是烯烃环氧化反应的高效催化剂.串联催化可以将多步反应整合为一次反应,无需分离中间体,有效缩短合成路线,提高生产效率.因此,双功能Ti和Sn分子筛有望应用于烯烃制二醇的串联催化反应中,即烯烃在Ti活性位点上发生环氧化反应,随后在Sn位点上发生水合反应,进而串联一步生成1,2-二醇.在沸石分子筛中产生孤立的多功能活性位点是将多步反应整合成串联催化反应的一种有吸引力的设计策略.本文通过简单且可规模制备的后合成路线构建了双功能TiSn-Beta分子筛,并用于烯烃串联催化制1,2-二醇反应.一方面,该反应中的过氧化氢溶液既能提供氧化剂(如H2O2)用于烯烃环氧化反应,又能提供环氧化合物水合反应的亲核试剂(如H2O);同时TiSn-Beta作为一种高效双功能催化剂,孤立的Ti和Sn活性中心可以有效地将烯烃环氧化反应和环氧化物水合反应串联在沸石微反应器中,实现烯烃一步转化为1,2-二醇.另一方面,沸石的限域效应较好地保证了烯烃环氧化和环氧化物水合的高串联速率和目标产物的高选择性,在最优的反应条件下,1,2-二醇选择性高达90%以上,收率接近70%.本文结果表明沸石分子筛是构筑多功能孤立活性位点的理想载体,为其他串联反应催化剂的设计提供了良好的借鉴. 相似文献
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合成表征了酚氧、双羧基桥联双组氨酸的手性双铁核配合物和双锰核配合物,研究了它们催化亚碘酰苯对烯烃的环氧化反应和对环烷烃的羟化反应.结果表明这种Fe2(Ⅲ)和Mn2(Ⅲ)配合物均是有效的甲烷单加氧酶(MMO)模型化合物,其中Fe2配合物能较好地再现MMO的某些性质,如电子光谱等.Fe2配合物催化苯乙烯环氧化反应生成环氧苯乙烷的产率为840%(以催化剂计),且R-(+)-构型对映体过量(e.e.)达45.4%.相应的Mn2配合物则以7080%产率给出环氧苯乙烷,R-(+)-构型对映体过量51.6%.Mn2配合物还能够催化环己烯和环己烷的氧化反应,产物及其分布分别为环氧环己烷3880、环己烯醇603、环己烯酮189和环己醇1053、环己酮639%(以催化剂计).EPR研究表明MM=O是反应的活性中间体. 相似文献
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Yamazaki S 《Organic & biomolecular chemistry》2007,5(13):2109-2113
Methyltrioxorhenium (MTO)-catalyzed epoxidation of alkenes with H(2)O(2) has been significantly improved by using 3-methylpyrazole as an additive. A system consisting of 35% H(2)O(2) and MTO-3-methylpyrazole in CH(2)Cl(2) catalyzes the epoxidation of various alkenes in excellent yields. The catalytic activity of MTO-3-methylpyrazole surpasses MTO-pyrazole and MTO-pyridine catalysts. Quantitative yields of epoxides from cyclic and internal alkenes were obtained with only 0.05-0.1 mol% of MTO in the presence of 10 mol% of 3-methylpyrazole. 相似文献
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We have reported that phenyliodonium diacetate[PhI(OAc)2] can serve as an eco-friendly mild oxidant for the epoxidation of alkenes in the presence of Mn(III) complex of meso-tetrakis(4-methoxyphenylporphyrin) acetate Mn[(T4-OCH3P)P]OAc and imidazole in CH2Cl2.The amounts of the products(%) and selectivities are very dependent upon the electronic and steric properties of the starting alkenes.To evaluate the validity of this catalytic system for C H activation,cyclohexane and ethylbenzene were oxidized under ... 相似文献
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Yingxin Zhang Jiaying Xin Linlin Chen Chungu Xia 《Applied biochemistry and biotechnology》2009,157(3):431-441
Methanotrophs have promising applications in the epoxidation of some alkenes and some chlorinated hydrocarbons and in the
production of a biopolymer, poly-β-hydroxybutyrate (poly-3-hydroxybutyrate; PHB). In contrast with methane monooxygenase (MMO)
activity and ability of PHB synthesis of four kinds of methanotrophic bacteria Methylosinus trichosporium OB3b, M. trichosporium IMV3011, Methylococcus capsulatus HD6T, Methylomonas sp. GYJ3, and the mixture of the four kinds of strains, M. trichosporium OB3b is the highest of the four in the activity of propene epoxidation (10.72 nmol/min mg dry weight of cell [dwc]), the
activity of naphthalene oxidation (22.7 mmol/mg dwc), and ability in synthesis of PHB(11% PHB content in per gram dry weight
of cell in 84 h). It could be feasible to improve the MMO activity by mixing four kinds of methanotrophs. The MMO activity
dramatically decreased when the cellular PHB accumulated in the second stage. The reason for this may be the dilution of the
MMO system in the cells with increasing PHB contents. It has been found that the PHB contents at the level of 1–5% are beneficial
to the cells for maintenance of MMO epoxidation activity when enough PHB have been accumulated. Moreover, it was also found
that high particulate methane monooxygenase activity may contribute to the synthesis of PHB in the cell, which could be used
to improve the yield of PHB in methanotrophs. 相似文献
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[π-C5H5N(CH2)15CH3]3[PMoW3O24]/H2O2:高效的环境友好且可再生的烯烃环氧化磷钼钨杂多酸催化体系 总被引:2,自引:1,他引:1
研究了一种可循环并且环境友好的催化体系:[π-C5H5N(CH2)15CH3]3[PMoW3O24]/过氧化氢/乙酸乙酯/烯烃.此体系不仅可以催化烯烃的环氧化反应,而且避免了对含氯溶剂的使用.反应在过氧化氢/乙酸乙酯的两相体系中进行,可以将多种烯烃转化为相应的环氧化物,且产率较高.此催化剂具有反应控制相转移的特征,反应结束后可以回收再利用.采用Raman,IR,^31P MAS NMR和^31P NMR等手段对新鲜及重复使用过的催化剂进行表征.结果表明:新鲜催化剂[π-C5H5N(CH2)15CH3]3[PMoW3O24]是一种混合物,含有多种过氧磷钼钨酸盐,如{PO4[MoO(O2)2]4}^3-,[(PO4){Mo3WO20}]^3-,[(PO4){Mo2W2O20}]^3-,[(PO4){MoW3O20}]^3-和{PO4[WO(O2)2]4}^3-.当过氧化氢被完全消耗后,这些小的活性物种就会聚合成具有混合多原子的Keggin型杂多阴离子,形成M-Ob—M(M=W或Mo)和M-Oc-M键. 相似文献
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The iron complexes [(BPMEN)Fe(OTf)2] (1) and [(TPA)Fe(OTf)2] (2) [BPMEN = N,N'-bis-(2-pyridylmethyl)-N,N'-dimethyl-1,2-ethylenediamine; TPA = tris-(2-pyridylmethyl)amine] catalyze the oxidation of olefins by H2O2 to yield epoxides and cis-diols. The addition of acetic acid inhibits olefin cis-dihydroxylation and enhances epoxidation for both 1 and 2. Reactions carried out at 0 degrees C with 0.5 mol % catalyst and a 1:1.5 olefin/H2O2 ratio in a 1:2 CH3CN/CH3COOH solvent mixture result in nearly quantitative conversions of cyclooctene to epoxide within 1 min. The nature of the active species formed in the presence of acetic acid has been probed at low temperature. For 2, in the absence of substrate, [(TPA)FeIII(OOH)(CH3COOH)]2+ and [(TPA)FeIVO(NCCH3)]2+ intermediates can be observed. However, neither is the active epoxidizing species. In fact, [(TPA)FeIVO(NCCH3)]2+ is shown to form in competition with substrate oxidation. Consequently, it is proposed that epoxidation is mediated by [(TPA)FeV(O)(OOCCH3)]2+, generated from O-O bond heterolysis of the [(TPA)FeIII(OOH)(CH3COOH)]2+ intermediate, which is promoted by the protonation of the terminal oxygen atom of the hydroperoxide by the coordinated carboxylic acid. 相似文献
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Marchi-Delapierre C Jorge-Robin A Thibon A Ménage S 《Chemical communications (Cambridge, England)》2007,(11):1166-1168
The dinuclear chiral complex Fe(2)O(bisPB)(4)(X)(2)(ClO(4))(4) (X = H(2)O or CH(3)CN) catalyzes with high efficiency (up to 850 TON) and moderate enantioselectivity (63%) the epoxidation of electron deficient alkenes at 0 degrees C by a peracid. 相似文献
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Epoxidations of alkyl-substituted alkenes, with hydrogen peroxide as the oxygen source, are catalyzed by CH(3)ReO(3) (MTO). The kinetics of 28 such reactions were studied in 1:1 CH(3)CN-H(2)O at pH 1 and in methanol. To accommodate the different requirements of these reactions, (1)H-NMR, spectrophotometric, and thermometric techniques were used to acquire kinetic data. High concentrations of hydrogen peroxide were used, so that diperoxorhenium complex CH(3)Re(O)(eta(2)-O(2))(2)(H(2)O), B, was the only predominant and reactive form of the catalyst. The reactions between B and the alkenes are about 1 order of magnitude more rapid in the semiaqueous solvent than in methanol. The various trends in reactivity are medium-independent. The rate constants for B with the aliphatic alkenes correlate closely with the number of alkyl groups on the olefinic carbons. The reactions become markedly slower when electron-attracting groups, such as halo, hydroxy, cyano, and carbonyl, are present. The rate constants for catalytic epoxidations with B and those reported for the stoichiometric reactions of dimethyldioxirane show very similar trends in reactivity. These findings suggest a concerted mechanism in which the electron-rich double bond of the alkene attacks a peroxidic oxygen of B. These data, combined with those reported for the epoxidation of styrene (a term intended to include related molecules with ring and/or aliphatic substituents) by B and by the monoperoxo derivative of MTO, suggest that all of the rhenium-catalyzed epoxidations occur by a common mechanism. The geometry of the system at the transition state can be inferred from these data, which suggest a spiro arrangement. 相似文献