类固相法快速合成高钙镁离子交换性能的P型分子筛

以硅铝干凝胶为硅源和铝源,氢氧化钠为碱源,采用类固相法快速合成了P型分子筛,并通过X射线衍射（XRD）、扫描电镜（SEM）等手段对产品进行了表征分析。结果表明,硅铝干凝胶的组成n_SiO2/n_Al2O3=5,晶化时间和晶化温度分别为3 h、140℃,原料的组成n_Na2O/n_SiO2、n_H2O/n_SiO2=18.51时,可制备形貌均一、结晶良好的P型分子筛产品。与传统水热法相比,该方法极大地减少了合成过程的用水量,缩短了晶化时间,提高了产品的钙镁离子交换性能,从整体上优化了P型分子筛的合成工艺。     

T型分子筛膜的合成、表征与渗透汽化性能

采用二次生长法,在不锈钢、α-Al₂O₃和莫来石多孔管状支撑体上分别合成了高渗透汽化性能的T型分子筛膜。考察了合成条件如合成时间、n(SiO₂)/n(Al₂O₃)、n(H₂O)/n(Al₂O₃)和硅源等对T型分子筛膜形成和分离性能的影响。通过XRD和SEM表征了膜的晶相和形貌。     

间歇式水热合成制备丝光沸石膜及其异丙醇脱水应用

采用市售廉价大孔α-Al₂O₃管作为基质材料，通过热浸渍法在管外表面涂敷晶种，随后在无模板剂体系下，利用新型的间歇式水热合成法制备丝光沸石膜。对比了传统加热和间歇式加热对丝光沸石膜形貌、结构及渗透蒸发异丙醇脱水分离性能的差异。考察了合成液中Na₂O/SiO₂、SiO₂/Al₂O₃和NaF/SiO₂物质的量之比在间歇式水热合成下对丝光沸石膜的影响。研究结果表明，当合成液中Na₂O/SiO₂、SiO₂/Al₂O₃和NaF/SiO₂物质的量之比分别为0.24、16.7和0.25时，制备的丝光沸石膜渗透蒸发异丙醇脱水分离性能最佳，在75℃下，对异丙醇/水(9∶1，w/w)的渗透通量达5.60 kg·m^-2·h^-1，水对异丙醇的分离因数大于10 000。     

具有纳米线镶嵌结构ZSM-5/L复合分子筛的合成及表征

采用两步晶化法,以四丙基氢氧化铵预处理ZSM-5为晶种,快速合成了纳米线镶嵌结构ZSM-5/L复合分子筛.通过XRD、SEM-EDX、TEM和N₂吸附-脱附等手段对合成样品的物理化学性质进行了表征.孔道性质表明复合分子筛具有微孔和介孔的多级孔道结构,椭球的L分子筛镶嵌在纳米线的ZSM-5分子筛周围.晶种预处理影响了溶胶的电荷及分子筛的形貌,当合成样品中ZSM-5的质量分数小于2%（重量百分比）时,凝胶的负电荷较多,易形成椭球状L分子筛;当合成样品中ZSM-5的质量分数大于2%（重量百分比）时,zeta电位在-39.822~-42.352 mV之间波动,ZSM-5分子筛的形貌从长条状逐渐转变为纳米线状.阳离子比影响复合分子筛中L分子筛形成,当阳离子比R=n（K₂O）/（n（K₂O）+n（Na₂O））小于0.6时,不利于L型分子筛的形成;当阳离子比大于0.6,即K⁺较多Na⁺较少时,有利于L型分子筛中α-钙霞石笼的形成.     

硅源量和晶化时间对SAPO-34分子筛结构和性能的影响

以吗啡啉为模板剂合成了SAPO-34分子筛，研究了晶化液SiO₂/Al₂O₃比(硅源量)的影响。当SiO₂/Al₂O₃ ≥ 0.6时，能合成出纯净的SAPO-34分子筛;SiO₂/Al₂O₃=1.0时，分子筛骨架中出现“硅岛”结构，此时合成的分子筛样品具有最高的(乙烯+丙烯)选择性。继续增大硅铝比对(乙烯+丙烯     

CoSAPO-34分子筛的合成、表征及其光催化脱氮性能

利用水热合成法,以三乙烯四胺（TETA）为模板剂,正硅酸乙酯、磷酸、氢氧化铝及乙酸钴为原料,合成了CoSAPO-34分子筛。通过扫描电子显微镜（SEM）、粉末X射线衍射（XRD）、热重（TG）、N2吸附-脱附和紫外-可见漫反射光谱（UV-Vis DRS）等方法对合成的分子筛进行表征。以吡啶-正辛烷体系为模拟油品对分子筛催化剂的脱氮效果进行评价,考察了样品的用量、光催化时间及循环催化次数对其脱氮性能的影响。结果表明：当合成原料的物质的量之比为n_P2O5：n_AL2O3：n_SiO2：n_Co：n_TETA=1：0.26：0.82：0.81：2.05,在200 ℃晶化24 h,合成得到粒径约为50 μm、仍保持了SAPO-34分子筛的骨架结构、形貌为立方体的CoSAPO-34分子筛,而且该分子筛具有较好的热稳定性。在500 W氙灯光照条件下反应150 min,样品对质量分数为100 μg·g^-1模拟油品的脱除率达到70%,循环3次光催化脱氮活性基本保持不变。     

变浓度无有机模板剂合成ZSM-5沸石分子筛膜

报道了无有机模板剂制备出15 nm的ZSM-5分子筛，并以其为晶种浸涂在多孔α-Al₂O₃陶瓷管外表面，再用先浓后稀的无有机模板剂的晶化液水热合成出ZSM-5分子筛膜的新方法。晶种和晶化液的物质的量组成为12Na₂O∶100SiO₂∶2Al₂O₃∶(2 500～5 000)H₂O。XRD分析表明α-Al₂O₃陶     

Cu-β沸石的合成、表征及催化性能

采用水热合成法在SiO₂-CuO-(TEA)₂O-H₂O-NH₄F体系中合成了Cu-β沸石,运用X射线衍射、红外光谱、紫外-可见固体漫反射光谱、热重-差热分析、扫描电镜和等离子体发射光谱仪等对样品进行了表征,并探讨了影响Cu-β沸石合成的因素。结果表明,按化学组成(物质的量的比)n_SiO2∶n_CuO∶n_(TEA)2O∶n_H2O∶n_NH4F=60∶(0.5~5.0)∶(16~18)∶(550~650)∶(25~50)配制初始反应混合物,可以制备出结晶良好的Cu-β沸石,且Cu原子进入了沸石骨架。所得Cu-β沸石(n_Si/n_Cu=30)在H₂O₂氧化苯酚的羟基化反应中表现出较好的催化活性,苯酚的转化率为25.1%,邻苯二酚和对苯二酚的选择性分别为63.9%和32.5%。     

EU-1分子筛的合成及其在正己烷异构化反应中的催化性能

在不同硅铝比(n_SiO2/n_Al2O3)的合成凝胶(含纯硅凝胶)中引入晶种,合成了纯相的EU-1分子筛。研究了铝源、模板剂和晶种添加量对EU-1分子筛的结晶度、形貌尺寸等的影响;重点研究了不同硅铝比对样品结晶度、晶粒尺寸、酸性、比表面积和孔容等的影响。将合成结果绘制成了纯相EU-1分子筛的合成条件三元图,从三元图可看出,晶种法可显著扩大纯相EU-1分子筛的合成区域。将Pt/H-EU-1用于正己烷异构化反应,结果表明,该催化剂具有优异的正己烷异构化活性及稳定性,对异构烷烃有较高的选择性。     

MFI沸石纳米片及b轴取向MFI沸石薄膜的制备

我们通过自下而上（bottom-up）的方法制备了高宽深比、高结晶度的b轴方向上超薄的MFI沸石纳米片,为制备b轴取向MFI沸石薄膜提供了基础。采用滑动涂覆法（slip coating method）在玻璃片载体上制备了厚度约为100 nm的b轴取向MFI纳米片晶种层。采用无模板剂二次生长法,抑制晶种层面外孪晶生长,实现了晶种层的面内外延生长。在合成体系的n_SiO2：n_Na2O：n_{C2 H5 OH}：n_{H2 O}=1：0.03：1.3：0.89、晶化时间48 h、晶化温度180℃时,制备了厚度约为200 nm的连续致密的b轴取向MFI沸石膜,与基于四丙基氢氧化铵（TPAOH）的常规合成溶液水热二次生长制备的MFI沸石膜相比,厚度降低了90%,并且保持了晶种层的b轴取向性。     

以拟薄水铝石为铝源合成的β沸石的表征和催化性能(英文)

考察了以拟薄水铝石为铝源、固体硅胶为硅源、四乙基氢氧化铵为模板剂时不同晶化混合液ＳｉＯ２／Ａｌ２Ｏ３比和不同晶化温度对β沸石合成的影响。ＸＲＤ、ＴＧＡ、ＩＣＰ及ＳＥＭ研究结果表明,在晶化混合液ＳｉＯ２／Ａｌ２Ｏ３比为２０至５０之间、晶化温度为１４０℃～１６０℃范围内能合成出高结晶度的β沸石,且β沸石硅铝比与晶化混合液硅铝比呈良好的线性关系：ＴＧＡ总失重量随β沸石硅铝比增加而增加,晶化温度对β沸石的晶粒度没有明显影响。此外,所制备的Ｈβ沸石对甲苯与Ｃ９芳烃歧化和烷基转移反应具有良好的催化性能。     

微波加热法快速合成T型分子筛

由于具有高的水热稳定性和优良的孔道结构．T型分子筛已成为一种高选择性的催化剂．在低碳化合物的催化和重整等方面有较多的应用。近年来．报道采用晶种法在无机多孔陶瓷支撑体上制备的T型分子筛膜．在脱除有机物／水混合物中的水时．表现出优异的渗透汽化分离性能。然而，提高T型分子筛膜的致密性和生长速率仍是亟待解决的问题。T型分子筛的合成研究较少．制备过程均采用普通加热（Conventional Heating．CH）法。在无模板剂的条件下．T型分子筛的结晶区间较窄，结晶速率慢．合成时间通常需要6d以上。     

The Effects of Various Sources and Templates on the Microwave‐assisted Synthesis of BZSM‐5 Zeolite

Isomorphic substitution of boron into ZSM‐5 zeolite under microwave‐assisted hydrothermal conditions was systematically studied. When microwave treatment and conventional heating were used, BZSM‐5 zeolite could be obtained within one day, whereas the synthesis of BZSM‐5 under conventional hydrothermal conditions took five days at 180 °C. Various parameters that affect the crystallization of BZSM‐5, such as templates, crystallization time, the silicon source and the Si/B ratio were investigated. Systematic variations of these parameters revealed that this zeolite can be obtained from the reaction mixture with optimized ratios of Si/B > 0.6. Among various tested sources, tetraethylorthosilicate (TEOS) turned out to be the best source for synthesis of borosilicate zeolite and further investigations were done with TEOS as silicon source. The obtained products were characterized by XRD, SEM, and IR spectroscopic techniques.     

微波诱导快速合成纳米NaY分子筛

报导了一种在常压回流微波加热条件下,可使合成的NaY分子筛晶粒尺寸减小至100 nm以下的方法.添加柠檬酸的晶化速率接近添加稀土离子的晶化速率,合成60 min后两者得到的NaY分子筛的晶粒度和硅铝比接近,约为40 nm和5.2,晶粒度小且硅铝比高于在相同条件下没有添加合成得到的NaY分子筛.微波合成的NaY分子筛的晶粒度明显小于常规相同配比所得样品的晶粒度且晶化时间明显缩短,充分证明了微波加热快速均匀且能够得到较小晶粒度的特点.     

Microwave synthesis of hybrid inorganic-organic porous materials: phase-selective and rapid crystallization

Microwave synthesis of two porous nickel glutarates was compared with conventional hydrothermal synthesis. The cubic nickel glutarate, [Ni20(C5H6O4)20(H2O)8] x 40 H2O (1), was synthesized by conventional electrical heating in several hours or days, depending on synthesis temperature. Crystallization was greatly accelerated by microwave irradiation, in which more stable, tetragonal nickel glutarate, [Ni22(C5H6O4)20(OH)4(H2O)10] x 38 H2O (2), was formed within a few minutes, suggesting the efficiency of the microwave technique in the synthesis of porous hybrid materials. The cubic phase 1 is formed preferentially at low pH, low temperature, and especially under conventional electrical heating. In contrast, the tetragonal phase 2 is obtained favorably at high pH, high temperature, and especially with microwave irradiation. This work demonstrates that the microwave method provides not only the very fast synthesis of a hybrid material, but also the possibility to discover a new porous hybrid material not yet identified by conventional hydrothermal synthesis. The hydrothermal formation of metal-organic hybrid materials in a matter of minutes is an important step towards developing commercially viable routes for producing this valuable class of materials.     

Static and Ultrasonic‐assisted Aging Effects on the Synthesis of Analcime Zeolite

The synthesis of zeolite ANA under static hydrothermal conditions was performed accompanied by an additional static and ultrasonic‐assisted aging of the reaction mixture prior to crystallization. The aging process was compared with stirring‐assisted aging, microwave‐assisted aging and syntheses without any aging. The influence of aging time on the crystallization time of zeolite ANA was investigated. The static and ultrasonic‐assisted aging can shorten the crystallization time of the ANA phase. Moreover, ultrasonic‐assisted aging leads to altered morphologies of the particles. The products were characterized by X‐ray diffraction (XRD) and scanning electron microscopy (SEM).     

Ultrasonic‐Assistance and Aging Time Effects on the Zeolitation Process of BZSM‐5 Zeolite

The isomorphic substitution of boron into ZSM‐5 zeolite under static hydrothermal condition was investigated. Evaluation of hydrothermal synthesis of BZSM‐5 was performed by treating the synthesis mixture by different aging processes, namely, ultrasonic, static, stirring, and microwave‐assisted aging prior to the conventional hydrothermal treatment. The synthetic processes with different techniques of aging prior to the onset of conventional hydrothermal crystallization were compared with a process without any prior aging. The obtained results showed that the ultrasonic and microwave assisted aging shortened the crystallization time and altered the crystal size and the morphology of the obtained products. The characteristics of the synthesized products were obtained by FT‐IR spectroscopic, XRD and SEM techniques.     

两步变温法微米晶种诱导合成高性能的T型分子筛膜

在预涂自制微米晶种的多孔管状莫来石支撑体表面上,采用两步变温法诱导合成T型分子筛膜。在溶胶配比nSiO2∶nAl2O3∶nNa2O∶nK2O∶nH2O=1∶0.05∶0.3∶0.1∶30合成条件下,通过变温晶化过程成功制备出高性能的T型分子筛膜。XRD和SEM结果表明,该法可在支撑体表面上较快地形成一层连续致密的纯相T型分子筛膜层,较大缩短了膜合成时间和提高了膜致密性。在优化条件下所合成的膜具有优异的渗透汽化性能,且膜制备的重复性良好。75℃时,在水/异丙醇(10/90,w/w)混合物体系中膜的渗透通量和分离因子分别高达4.25 kg.m-2.h-1,7600;在水/乙醇(10/90,w/w)混合物体系中膜的渗透通量和分离因子分别为2.87 kg.m-2.h-1,1 900。     

Preparation of uniform and nano‐sized NaA zeolite using silatrane and alumatrane precursors

Nano‐sized Na A zeolite was successfully synthesized via the sol–gel process and microwave techniques. The synthesis parameters, such as hydroxide ion concentration, seed amount, as well as heating time and temperature, were studied to obtain the most uniform and very small sized NaA zeolite using the composition of SiO₂:Al₂O₃:xNa₂O:410H₂O; 3 ≤ x ≤ 6. It was found that hydroxide ion concentration affects the crystal size and heating time, whereas a higher amount of seed provides smaller sized NaA zeolite. The zeolite product can be synthesized using a higher temperature for a shorter time or lower temperature for a longer time. The best conditions for synthesizing the smallest size, 0.1–0.2 µm, and the most homogeneous NaA zeolite is to use the composition of SiO₂:Al₂O₃:3Na₂O:410H₂O and 3 wt% crystal seed at 80 °C microwave heating for 6 h. The synthesized NaA zeolite was characterized using XRD and SEM. Copyright © 2006 John Wiley & Sons, Ltd.     

In situ SAXS/WAXS of zeolite microwave synthesis: NaY, NaA, and beta zeolites.

A custom waveguide apparatus is constructed to study the microwave synthesis of zeolites by in situ small-angle X-ray scattering (SAXS) and wide-angle X-ray scattering (WAXS). The WR-284 waveguide is used to heat precursor solutions using microwaves at a frequency of 2.45 GHz. The reaction vessels are designed to include sections of thin-walled glass, which permit X-rays to pass through the precursor solutions with minimal attenuation. Slots were machined into the waveguide to provide windows for X-ray energy to enter and scatter from solutions during microwave heating. The synthesis of zeolites with conventional heating is also studied using X-ray scattering in the same reactor. SAXS studies show that the crystallization of beta zeolite and NaY zeolite is preceded by a reorganization of nanosized particles in their precursor solutions or gels. The evolution of these particles during the nucleation and crystallization stages of zeolite formation depends on the properties of the precursor solution. The synthesis of NaA and NaX zeolites and sodalite from a single zeolite precursor is studied by microwave and conventional heating. Microwave heating shifts the selectivity of this synthesis in favor of NaA and NaX over sodalite; conventional heating leads to the formation of sodalite for synthesis from the same precursor. The use of microwave heating also led to a more rapid onset of NaA zeolite product crystallization compared to conventional heating. Pulsed and continuous microwave heating are compared for zeolite synthesis. The resulting rates of formation of the zeolite products, and the relative amounts of the products determined from the WAXS spectra, are similar when either pulsed or continuous microwave heating is applied in the reactor while maintaining the same synthesis temperature. The consequences of these results in terms of zeolite synthesis are discussed.