杂原子介孔分子筛Me-HMS催化酯交换合成碳酸二苯酯

以水热合成法制备了杂原子介孔分子筛Me-HMS(Me指金属杂原子),用于催化碳酸二甲酯与苯酚酯交换合成碳酸二苯酯的反应.小角度的X射线衍射显示,所有样品均具有典型的HMS介孔结构.Me-HMS中,Ti-HMS显示最好的催化性能,其活性与骨架钛含量密切相关,当溶胶中Ti/Si比达1/30时,骨架钛趋于饱和,苯酚转化率达到最大值31.4%,酯交换选择性为99.9%.     

Fe-MSU-1介孔分子筛的合成及其催化苯酚羟基化性能

以月桂醇聚氧乙烯醚为模板剂,在中性条件下成功合成了Fe-MSU-1介孔分子筛.采用X射线衍射、傅里叶变换红外光谱、紫外-可见吸收光谱、电子自旋共振谱、透射电镜、低温N2吸附和电感耦合等离子体原子发射光谱对样品进行了表征.考察了Fe-MSU-1分子筛在苯酚羟基化反应中的催化性能以及工艺条件对苯酚羟基化反应的影响.结果表明,Fe3 离子进入了分子筛骨架,Fe-MSU-1分子筛具有均一的蠕虫状介孔结构,平均孔径约为2.9nm.在焙烧后的Fe-MSU-1样品中,Fe3 主要以四配位的形式存在,无骨架外Fe2O3物种形成.以水为溶剂,在苯酚/H2O2摩尔比为3,反应温度353K,反应时间7h的条件下,苯酚和H2O2的转化率以及苯二酚的选择性分别达到20.4%,96.9%和99.6%.     

MCM—41介孔分子筛合成研究：Ⅱ.微波辐射合成法

采用微波辐射技术合成了ＭＣＭ－４１介孔分子筛,并用ＸＲＤ,ＳＥＭ,ＩＲ,ＮＭＲ和吸附等表征手段考察了其晶化过程,晶体形貌和稳定性等特点,结果表明,微波法合成ＭＣＭ－４１分子筛时诱导期极短,晶化速度很快且在晶化后期无转晶现象;微波法合成的ＭＣＭ－４１试样的吸附容量较低,但具有较强的耐热及水热稳定性和抗酸碱能力。     

MCM—41介孔分子筛合成研究：Ⅰ.水热合成法

以十六烷基三甲基溴化铵为附加试剂合成了ＭＣＭ－４１介孔分子筛,并用ＸＲＤ,ＳＥＭ和ＩＲ等表征手段考察了晶化时间、晶化温度、物料组成和附加试剂用量等对其晶化过程的影响。结果表明,ＭＣＭ－４１介孔分子筛的晶化诱导期较长,在晶化后期存在着转晶现象,而且有一较适宜的晶化温度,物料组成和附加试剂用量范围。     

介孔材料MCM-41的合成与性能表征

在水热条件下用新的合成控制手段得到孔壁较厚的MCM-41介孔分子筛材料,并采用XRD、N2吸附、TG-DTA、SEM和吡啶程序升温脱附等测试手段对合成的MCM-41样品进行表征,结果表明合成的介孔材料结晶度比较高,具有六方排列的孔道结构,孔径分布较窄,BET表面积较大,样品热稳定性高,吡啶-TPD谱图表明样品具有弱的或中等强度的酸性.用MCM-41作为活性组分制备成催化剂,进行微反活性实验,表明其裂化活性较低,但对柴油有较高的选择性.     

YOx -MCM-41介孔分子筛的合成与表征

以十六烷基三甲基溴化铵为模板剂,偏硅酸钠为硅源,硝酸钇为钇源,用水热法合成了YOx-MCM-41介孔分子筛,经X射线粉末衍射法,FT-IR,热重分析,紫外漫反射法及N2吸附-脱附法表征。结果表明,该分子筛具有热稳定性好、比表面积大、孔道均一等典型的MCM-41介孔分子筛的特征。     

从介孔分子筛原粉研制高效吸附二氧化碳的有机胺-介孔复合材料

固态有机胺二氧化碳吸附剂具有高选择性、低腐蚀性、易再生等特点,有着减少二氧化碳排放的潜在应用前景.但是,如何在大量引入氨基的同时,保持氨基在载体上具有高分散度是制备固态胺吸附剂的难题.本文综述了近年来固体胺二氧化碳吸附剂的研究进展,重点介绍开拓利用介孔分子筛原粉的分级结构,将有机胺涂布到介孔分子筛孔道中的丝状胶束以及胶束和硅壁之间的间隙中,可以显著地提高二氧化碳的吸附量.     

氨水介质中含Ti的MCM-41介孔分子筛的合成

 在氨水介质中采用TiCl3和正硅酸乙酯合成了含Ti量不同的MCM-41介孔分子筛. 该方法可避免使用昂贵的辅助模板剂,也不需要加入醇来调节水解速度,因而合成过程相对简单、易于控制. 采用XRD和N2吸附-脱附等技术对介孔分子筛的结构进行了表征. 结果表明,合成的MCM-41介孔分子筛的六方介孔有序性好,结晶度高. UV-Vis光谱表明,Ti-MCM-41在200～300 nm间出现了四个清晰可辨的吸收峰,说明Ti原子以多种状态存在于介孔分子筛骨架中.     

介孔分子筛MCM-41的水热稳定性

介孔分子筛MCM-41在催化、吸附分离以及化学组装制备先进材料等方面具有潜在的巨大应用价值,但MCM-41的低水热稳定性使其在催化研究领域中的应用受到了极大的限制。因此,提高介孔分子筛的水热稳定性具有十分重要的科研和实际应用意义。笔者对介孔分子筛MCM-41低水热稳定性的原因作了简要分析,并系统地介绍了近几年来在提高介孔分子筛水热稳定性方面的研究工作。     

非水介质中合成介孔分子筛MCM-41

首次采用十六烷基三甲基溴化铵为模板剂、正硅酸乙酯为硅源, 分别使用无机和有机弱碱, 溶剂热晶化法在非水甘油介质中合成了介孔分子筛MCM-41, 通过XRD, N₂吸附-脱附, TG-DTG, IR, SEM等测试手段对样品进行了表征分析, 结果表明在甘油体系中得到的样品具有优良的孔结构性质. 相比于氢氧化钠, 以有机弱碱(无水乙二胺、三乙胺)作为碱源, 可以得到有序性更好、结晶度高的样品, 样品具有较窄的孔径分布.     

Catalytic performance of metal oxide modified SiMCM-41 catalysts in diphenyl carbonate synthesis

Decomposition of CCl₄ into diphenyl carbonate (DPC) was examined over metal oxides modified SiMCM-41. ZnO/SiMCM-41 and Fe₂O₃/SiMCM-41 showed high activity in DPC synthesis. Although many other metal oxides, such as La₂O₃, CuO, Al₂O₃ and alkali or alkaline earth oxide, were success in destruction of CCl₄, they displayed nearly no activity on DPC synthesis. ZnO/SiMCM-41 and Fe₂O₃/SiMCM-41 were characterized by X-ray diffraction (XRD), UV-Raman, ²⁹Si MAS NMR and N₂ adsorption-desorption isotherms, and results showed that ferric and zinc oxide were supported onto SiMCM-41. The well ZnO dispersion in SiMCM-41 channels and the weak electrostatic interaction between chlorine anion and Zn²⁺ play an important role for the high activity of ZnO/SiMCM-41 in decomposition of CCl₄ into DPC.     

Benzylation of benzene and substituted benzenes by benzyl chloride over InCl3, GaCl3, FeCl3 and ZnCl2 supported on clays and Si-MCM-41

Liquid phase benzylation of benzene by benzyl chloride to diphenyl methane over InCl₃, GaCl₃, FeCl₃ and ZnCl₂ supported on commercial clays (viz. Montmorillonite-K10, Montmorillonite-KSF and Kaolin) or on high silica mesoporous MCM-41 (at 60, 70 and 80 °C) has been investigated. The supported InCl₃, GaCl₃ and FeCl₃ showed high activity for the benzylation of benzene. The redox function created due to the impregnation of the clays or Si-MCM-41 by InCl₃, GaCl₃, FeCl₃ or ZnCl₂ seems to play a very important role in the benzylation process. Among the catalysts, the InCl₃/Mont.-K10 showed both high activity and high selectivity for the benzylation. The activity of this catalyst for the benzylation of different aromatic compounds is in the following order: benzene>toluene>mesitylene>anisole. The InCl₃ (or GaCl₃)/Mont.-K10 (or Si-MCM-41) catalyst showed high benzene benzylation activity even in the presence of moisture in the reaction mixture. The catalyst can also be reused in the benzylation for several times. Kinetics of the benzene benzylation (using excess of benzene) over the supported metal chloride catalysts have also been thoroughly investigated. A plausible reaction mechanism for the benzylation over the supported metal chloride catalysts is proposed.     

Zr-MCM-41的合成及其表征

以Zr(NO3)4·3H2O为锆源，通过直接合成法得到了Zr-MCM-41介孔材料，考察了不同Zr/Si摩尔比对样品的影响，其中Zr/Si的摩尔比最大为0.25。随着Zr/Si的摩尔比的增加，2θ=2°附近的100晶面的衍射峰强度逐渐降低，当Zr/Si摩尔比大于0.25后得不到介孔Zr-MCM-41材料。对所得样品采用XRD、TG-DTA、N2吸附 脱附几种分析方法进行了表征。     

Synthesis of hydrocarbons from CO and H2 on supported nickel-palladium catalysts

The use of an Ni-Pd/Al₂O₃ catalyst in the synthesis of C₁-C₄ hydrocarbons from CO and H₂ permits us to increase the selectivity and total yield of these products by a factor of 1.5–2.0 relative to the corresponding nickel and palladium catalysts. The optimal temperatures and CO/H₂ ratios for obtaining hydrocarbons were determined. A structure was proposed for the active sites of the bimetallic catalyst.Translated from Izvestiya Akademii Nauk SSSR, Seriya Khimicheskaya, No. 7, pp. 1689–1691, July, 1991.     

Synthesis and surface modification of mesoporous mcm-41 silica materials

Surface modification offers a great opportunity to adjust both the pore diameter and surface properties of MCM-41 type organic–inorganic hybrid materials which result in materials of improved hydrothermal and mechanical stability. Therefore, MCM-41 silica, surface modified with organic ligands, are promising systems with engineered properties and attractive for advanced applications. In the present study, after optimization of the reaction conditions highly ordered MCM-41 silica spheres with uniform mesopores were prepared by the pseudomorphic transformation route. The effect of functionality and alkyl chain length of the alkyl ligands during surface modification was probed by using butyl and octylsilanes with two different functionalities. Due to steric hindrance, the longer chains are assumed to bind only on the outer silica surface and near the entrance of the pores, while the shorter chains are also able to bind to the interior mesopore walls. The resulting materials were comprehensively characterized before and after surface modification using nitrogen sorption techniques, XRD, SEM, solid-state NMR spectroscopy and FTIR spectroscopy. From chromatographic test measurements it was found that the separation power primarily depends on surface coverage and alkyl chain length. On the basis of the present data, surface modified mesoporous silica of MCM-41 type are very promising candidates for future chromatographic applications.     

ortho-Selective ethylation of phenol with ethanol catalyzed by bimetallic mesoporous catalyst, CoAl-MCM-41

CoAl-MCM-41 (X) catalysts with X = n_Si/(n_Co + n_Al) various ratios were synthesized and ethylation of phenol with ethanol was studied in vapor-phase at temperatures between 250 and 450 °C. The products obtained were O-alkylated product (ethyl phenyl ether), C-alkylated products (2-ethylphenol and 4-ethylphenol), and C-/O-alkylated products (ethyl ethylphenyl ether). The phenol conversion increased significantly with reaction temperature over all the catalysts. The activity of the catalysts followed the order CoAl-MCM-41 (20) > CoAl-MCM-41 (50) > CoAl-MCM-41 (80). Selectivity between the C-alkylation and the O-alkylation depended on the factors such as acidity of the catalyst and the reaction temperature. CoAl-MCM-41 (20) catalyst displayed a phenol conversion of 40% and a selectivity of more than 80% for 2-ethylphenol under the optimized reaction condition. The ethanol to phenol ratios and the reactant flow rate are also influential for both activity and selectivity of CoAl-MCM-41 catalysts.     

Oxidative dehydrogenation of ethylbenzene to styrene with CO2 over Al-MCM-41-supported vanadia catalysts

Catalytic performance of Al-MCM-41-supported vanadia catalysts (V/Al-MCM-41) with different V loading was investigated for oxidative dehydrogenation of ethylbenzene to styrene (ST) with CO₂ (CO₂-ODEB). For comparison, pure silica MCM-41 was also used as support for vanadia catalyst. The catalysts were characterized by N₂ adsorption, X-ray diffraction (XRD) pyridine-Fourier-transform infrared spectroscopy, H₂-temperature-programmed reduction, thermogravimetric analysis (TGA), UV-Raman, and diffuse reflectance (DR) UV–vis spectroscopy. The results indicate that the catalytic behavior and the nature of V species depend strongly on the V loading and the support properties. Compared with the MCM-41-supported catalyst, the Al-MCM-41-supported vanadia catalyst exhibits much higher catalytic activity and stability along with a high ST selectivity (>98%). The superior catalytic performance of the present V/Al-MCM-41 catalyst can be attributed to the Al-MCM-41 support being more favorable for the high dispersion of V species and the stabilization of active V⁵⁺ species. Together with the characterization results of XRD, TGA, and DR UV–Vis spectroscopy, the deep reduction of V⁵⁺ into V³⁺ during CO₂-ODEB is the main reason for the deactivation of the supported vanadia catalyst, while the coke deposition has a less important impact on the catalyst stability.     

Synthesis, characterization, and catalytic properties of stable mesoporous molecular sieve MCM-41 prepared from zeolite mordenite

Mesoporous molecular sieves (denoted as M-MCM-41) with ordered hexagonal structure have been successfully synthesized from the assembly of precursors from preformed zeolite Mordenite with CTAB surfactant micelle in alkaline media. The samples were characterized by XRD, N₂ adsorption, IR and DTG. The materials exhibit highly hydrothermal stability, as compared with conventional MCM-41. Characterization results indicate that the mesoporous walls of M-MCM-41 contain the secondary building units similar to those in microporous crystal of zeolite Mordenite. In catalytic dealkylation of C10⁺ aromatic hydrocarbon, M-MCM-41 shows higher activities in comparison with Mordenite and MCM-41, which would be ascribed to the combination of advantages of both MCM-41 (large pores) and Mordenite (strong acidity). Furthermore, this synthesis strategy could be used as a new general method for the preparation of hydrothermally stable mesoporous aluminosilicate materials under alkaline conditions.     

无水AlCl3催化合成N,N-二氰乙基甲基苯胺的研究

报道了AlCl₃和AlCl₃-ZnCl₂组成的催化体系对邻、间、对甲基苯胺三种异构体与丙烯腈发生加成反应合成相应的N,N-二氰乙基甲基苯胺. 其结果表明: AlCl₃对该类反应具有很高的催化效率, AlCl₃-ZnCl₂组成的催化体系比AlCl₃的催化效率更高, 其中间位、对位产物收率达92%～94%.     

Copolymerization of ethylene and non-conjugated diene with metallocene/methylaluminoxane system supported on MCM-41 mesoporous material

Ethylene was copolymerized with the non-conjugated diene 5,7-dimethylocta-1,6-diene by metallocene catalysts, homogenous and supported on MCM-41 mesoporous material activated by methylaluminoxane at room temperature. The employed metallocenes were (BzCp)₂ZrCl₂ (1), (C₁₈H₃₇Cp)₂ZrCl₂ (2), (CH₃)₂Si(Ind)₂ZrCl₂ (3) and ?₂C(Cp,Flu)ZrCl₂ (4). Diene incorporation and thermal characteristic of the polymers were determined by ¹³C-NMR and DSC. For the homogeneous systems, only the unbridged metallocene (1) showed a decrease in the activity as the diene content was increased. The ability for diene incorporation in the polymer chain followed the catalyst order (1) < (3) < (2) < (4). Regarding the supported systems, it was observed that all of them showed lower activity than the corresponding homogeneous catalysts. A sharp loss of activity in relation to the homogeneous counterpart was noticed by employing the ansa-metallocenes on MCM-41, especially the complex (4) supported catalyst. The effect of the mesoporous material as support on the behavior of the studied metallocene homogeneous systems in ethylene-diene copolymerization was an increase of polymer molecular weight, maintaining the same level of diene incorporation, except for catalyst (2), when a decrease of the diene incorporation was observed.