高铝MAP沸石的非自发结晶动力学研究

在强碱性水溶液体系中,以水玻璃为硅源,以铝酸钠为铝源,在类质同晶高硅P沸石晶种导向作用下,反应物中自发生成的A型沸石可转晶为纯相高铝MAP沸石。升高反应温度有利于提高产物的结晶度。由不同温度下的晶化曲线计算出MAP沸石表观生长活化能为59.6kJ.mol^-^1。不用晶种时,同一反应物体系结晶产物为单一的A型沸石。在该反应物体系中,A型沸石的成核活化能与生长活化能分别为40.3和50.7kJ.mol^-^1。MAP高的生长活化能以及A型沸石相对低的成核与生长活化能揭示合成MAP沸石时使用晶种的原因。     

无有机模板剂体系水热合成Beta沸石中晶种的导向机理(英文)

在无有机模板剂体系中研究了不同硅铝比和晶粒度Beta沸石晶种的结构导向行为,采用X射线衍射、X射线荧光光谱、扫描电镜、透射电镜、紫外-拉曼光谱、红外光谱和N2物理吸附等方法对不同晶化时间固相产物和Beta沸石产物进行了表征.结果表明,不同Beta沸石晶种,包括全硅晶种,均能够导向合成Beta沸石,而且晶种在晶化诱导期都发生溶解.但是,晶种的硅铝比、晶粒度、预处理(焙烧)以及晶种加入的时间对晶种的溶解行为、Beta沸石晶化过程和产物都有重要影响.形貌研究还发现,含铝晶种不仅溶解后的残体通过提供晶核聚集的"固载化"表面导向了新生Beta沸石小晶体的密集生长,而且溶解下来的结构片段也提供了分散的晶核导向形成相对分散的Beta沸石小晶体;全硅晶种则仅通过溶解下来的结构片段提供分散的晶核.在无模板体系中,使用适当高硅铝比、小晶粒和经过焙烧处理的Beta沸石作为晶种有利于合成得到高结晶度的Beta沸石纯相.     

ZSM-5、ZSM-57分子筛和丝光沸石间的转晶规律

考察了硅铝比、碱度、有机胺模板剂、晶化时间及温度等合成条件对ZSM-5、ZSM-57 分子筛和丝光沸石之间相互转晶的影响. 发现较高的碱度、较长的晶化时间有利于合成丝光沸石；较低的碱度、较高的诱导晶化温度、较长的晶化时间有利于合成低硅铝比的ZSM-57 分子筛；合成低硅铝比的ZSM-5分子筛则需要在能合成丝光沸石和ZSM-57 分子筛的碱度区间内精确调节碱度, 缩短晶化时间、降低诱导晶化温度、加入适当晶种, 有利于合成低硅铝比的ZSM-5 分子筛. 合成条件稍微改变, 会导致各种沸石之间发生转晶, 晶化产物出现两种或两种以上的晶型.     

无有机模板剂体系水热合成Beta沸石中晶种的导向机理(英文)

在无有机模板剂体系中研究了不同硅铝比和晶粒度Beta沸石晶种的结构导向行为,采用X射线衍射、X射线荧光光谱、扫描电镜、透射电镜、紫外-拉曼光谱、红外光谱和N2物理吸附等方法对不同晶化时间固相产物和Beta沸石产物进行了表征.结果表明,不同Beta沸石晶种,包括全硅晶种,均能够导向合成Beta沸石,而且晶种在晶化诱导期都发生溶解.但是,晶种的硅铝比、晶粒度、预处理(焙烧)以及晶种加入的时间对晶种的溶解行为、Beta沸石晶化过程和产物都有重要影响.形貌研究还发现,含铝晶种不仅溶解后的残体通过提供晶核聚集的"固载化"表面导向了新生Beta沸石小晶体的密集生长,而且溶解下来的结构片段也提供了分散的晶核导向形成相对分散的Beta沸石小晶体;全硅晶种则仅通过溶解下来的结构片段提供分散的晶核.在无模板体系中,使用适当高硅铝比、小晶粒和经过焙烧处理的Beta沸石作为晶种有利于合成得到高结晶度的Beta沸石纯相.     

纳米富铝β沸石的合成与表征

以低硅铝比焙烧后的硅铝胶固体为初始原料,在含F-近中性与低含水量体系下晶化合成出相对高结晶度的纳米富铝β沸石。实验考察了合成条件、硅铝胶焙烧对晶化产物的影响和晶化过程中Al配位状况变化,并采用XRD、XRF、SEM/TEM2、7AlMAS NMR物化方法对晶化产物进行表征。结果表明,含F-离子、H2O/SiO2摩尔比为2.4～6.0以及高温焙烧硅铝胶有利于合成高结晶度的纳米富铝β沸石;硅铝胶固体焙烧后能产生易于转化为β沸石晶核的Al四配位结构,而部分六配位Al在晶化过程中缓慢溶入β沸石晶核中而最终生成纳米富铝β沸石。     

OH-/SiO2比对合成β沸石晶粒粒度分布及结构的影响

具有十二元环的三维高硅大孔β沸石是1967年由Wadlinger[1]首先合成的,其结构模型于1988年由Newsam等[2]确定,近十年来,许多文献报道了不同模板剂、不同铝源和硅源以及不同碱金属对β沸石合成的影响及杂原子β沸石的合成[3-5],但均存在晶化时间较长等缺点,关于晶化混合物的OH-/SiO2比(以下简称碱度)对在较短晶化时间下所合成的β沸石的影响未见报道.     

硅铝沸石分子筛晶化过程再思考

目前针对沸石分子筛的晶化过程已经进行了大量研究, 但是近年来硅铝分子筛的合成显示其晶化过程超出了传统的沸石分子筛晶化理论, 特别表现在硅铝沸石分子筛的模板作用、 水的作用以及沸石晶体之间的转化等. 本文讨论了上述作用的本质, 并通过研究模板法作用提出了无有机模板法合成硅铝沸石的策略, 通过了解水的作用提出了无溶剂法合成沸石分子筛, 通过表征沸石之间的转化过程发现不仅低骨架密度可以向高骨架密度晶体转化, 而且高骨架密度也可以向低骨架密度晶体转化.     

水热条件下Y型沸石的转晶行为

系统研究了以KOH为结构导向剂,Y型沸石（HY和NaY）在水热条件下转晶为MER型沸石的行为.MER型沸石是硅铝比（Si/Al）在2~3之间且具有四种尺寸8元环孔道（3.1Å×3.5Å,2.7Å×3.6Å,3.4Å×5.1Å,3.3Å×3.3Å）的硅铝沸石分子筛,在小分子催化以及分离方面具有重要的潜在应用.传统水热法合成高结晶度MER型沸石需要7~10 d,将Y型沸石置于KOH的溶液中,经水热处理可在2 d内生成高结晶度的MER型沸石,而水热处理具有等价摩尔组成的无定形硅铝凝胶则得不到高结晶度MER型沸石的纯相.HY沸石可在100和150℃发生转晶,而NaY则只能在150℃发生转晶.KOH/SiO₂比和H₂O/SiO₂比对Y型沸石的转晶行为有重大的影响,只有在最优KOH/SiO₂比和H₂O/SiO₂比条件下才能生成高结晶度的MER型沸石.该转晶合成法显著缩短了MER型沸石的合成周期,对缩短其它有重大工业应用价值的沸石分子筛的合成周期有重要的借鉴意义.     

无模板剂条件下ZSM-5与丝光沸石之间的可控转晶

采用预晶化液添加法,即将高温(190oC)预晶化液添加到低温(150oC)晶化母液中合成沸石分子筛,考察了高温预晶化液的Na2O:SiO2比、预晶化时间以及低温晶化母液的Na2O:SiO2比对ZSM-5与丝光沸石之间转晶的影响,并采用X射线衍射和扫描电子显微镜对合成的产物进行了表征.研究发现,通过调节整体合成液的Na2O:SiO2比可有效控制ZSM-5沸石与丝光沸石之间的转晶.当整体合成液的组成为xNa2O:100SiO2:2.5Al2O3:12SO42?:4000H2O时,Na2O:SiO2=0.18是ZSM-5沸石和丝光沸石的一个分界线.通过调节母液的Na含量,使Na2O:SiO2>0.18时,高温预晶化过程中产生MFI结构的晶体在低温晶化时可向丝光沸石发生转晶;当Na2O:SiO2≤0.18时,具有MFI和丝光沸石结构共生的晶体在低温晶化时向MFI结构的ZSM-5沸石发生转晶.ZSM-5与丝光沸石之间转晶的前提条件是高温预晶化所形成晶体的结晶度不能太高(≤30%).另外,整体合成液中Na2O含量对生成晶体的形貌也有影响.     

无机铵型ZSM系高硅沸石的合成

在不添加晶种的条件下,以无定形硅酸铝、氢氧化铵和氢氧化钠为原料,研究了原料组成及晶化温度和晶化时间等对高硅沸石合成的影响,得到了硅铝比为30—70的无机铵型ZSM系高硅沸石。     

洗涤剂用沸石的钙离子交换性能的研究

作为洗涤剂助剂,沸石的主要作用是通过离子交换降低水中的钙镁离子浓度、软化洗涤用水以提高洗涤剂中的表面活性剂的洗涤效率。因此,沸石对钙镁离子交换容量的大小和交换速率的快慢是评价洗涤用沸石的重要质量指标［１,２］。目前,使用最多的沸石类助剂为ＮａＡ沸石。为了弥补ＮａＡ型沸石镁离子交换能力的不足,先后又出现了Ａ、Ｘ型沸石混合使用［３］、高铝Ｘ型沸石(ＭＡＸ)［４～５］和高铝Ｐ型沸石(ＭＡＰ)等技术［１,２］。ＭＡＸ型和ＭＡＰ型沸石与ＮａＡ型沸石一样具有最小的硅铝比(ＳｉＯ２／Ａｌ２Ｏ３＝２)。因此,这三种沸石的…     

高铝沸石的钙离子交换动力学研究

由于含磷洗涤剂的使用所带来的环境危害日益严重，高铝沸石作为洗涤剂助剂三聚磷酸钠的替代品已获得广泛的应用。作为洗涤剂助剂，沸石的Ca２＋、Mg２＋离子交换性能是影响其助洗效果的主要因素之一犤１，２犦。但目前对沸石的离子交换性质的研究多集中在离子交换平衡等温线的研究犤３～６犦，涉及沸石离子交换动力学的研究却鲜有报道。作为硬水的软化剂，洗涤剂用沸石对Ca２＋、Mg２＋离子的交换速率大小对洗涤效果的意义更为重要犤１犦。沸石的离子交换过程包括离子由溶液中扩散到沸石表面，再由沸石表面扩散到沸石孔道中的离子位等步骤…     

Hollow STW-Type Zeolite Single Crystals with Aluminum Gradient for Highly Selective Production of p-Xylene from Methanol-Toluene Alkylation

Zeolites with uniform micropores are important shape-selective catalysts. However, the external acid sites of zeolites have a negative impact on shape-selective catalysis, and the microporosity may lead to serious diffusion limitation. Herein, we report on the direct synthesis of hierarchical hollow STW-type zeolite single crystals with a siliceous exterior. In an alkalinous fluoride medium, the nucleation of highly siliceous STW zeolites takes place first, and the nanocrystals are preferentially aligned on the outer surface of the gel agglomerates to grow into single crystalline shells upon crystallization. The lagged crystallization of the internal Al-rich amorphous gels onto the inner surface of nanocrystalline zeolite shells leads to the formation of hollow cavities in the core of the zeolite crystals. The hollow zeolite single crystals possess a low-to-high aluminum gradient from the surface to the core, resulting in an intrinsic inert external surface, and exhibit superior catalytic performance in toluene methylation reactions.     

Effect of temperature on aluminum coordination in zeolites H-Y and H-USY and amorphous silica-alumina: an in situ Al K edge XANES study

In situ Al K edge XANES spectroscopy shows that the fraction of octahedrally coordinated aluminum in amorphous silica-alumina (ASA) and ultrastable Y zeolite (USY) decreases with increasing temperature under vacuum. In H-USY, about 10% of the aluminum remains octahedrally coordinated at 673 K, while, in ASA, virtually all the octahedrally coordinated aluminum is converted to tetrahedral coordination. In crystalline nonsteamed protonic zeolites, the fraction of octahedrally coordinated aluminum decreased to zero at 300 K. This is ascribed to the greater flexibility of the amorphous silica-alumina network in hosting water molecules and to the high concentration of silanol groups, which stabilize the hydrogen bonds. A large fraction of the nonframework aluminum in USY is amorphous silica-alumina.     

Three-coordinate aluminum in zeolites observed with in situ x-ray absorption near-edge spectroscopy at the Al K-edge: flexibility of aluminum coordinations in zeolites

Application of in situ X-ray absorption near-edge spectroscopy (XANES) at the Al K-edge provides unique insight into the flexibilty of the aluminum coordinations in zeolites as a function of treatment or during true reaction conditions. A unique, previously not observed, pre-edge feature is detected in zeolites H-Mordenite and steamed and unsteamed H-Beta at temperatures above 675 K. Spectra simulations using the full multiple scattering code Feff8 identify the unique pre-edge feature as three-coordinate aluminum. The amount of three-fold coordinated aluminum is a function of temperature and pretreatment of a zeolite: a steamed zeolite Beta contains more three-coordinate aluminum than an unsteamed sample. No clear differences between zeolites H-Mordenite and H-Beta were observed. Octahedrally coordinated aluminum forms in zeolites H-Mordenite and H-Beta at room temperature in a stream of wet helium. This octahedrally coordinated aluminum is unstable at temperatures higher than 395 K, where it quantitatively reverts to the tetrahedral coordination.     

Synthesis of highly ordered cubic zeolite A and its ion-exchange behavior

Well-ordered cubic zeolites 4A were synthesised using sol–gel process in the presence of different silica and aluminum sources. The aluminum and silica sources determined whether or not zeolites were formed at precise silica/alumina mole ratio. Zeolites were formed only when the aluminum source was sodium aluminate, the silica source was fumed silica, colloidal silica or sodium metasilicate. Our findings indicated that the type of zeolite invariably obtained was 4A and SEM images indicated that the produced zeolites are cubic shaped crystals with planar surfaces and well-defined edges and sharp crystals. In turn, synthesis parameters are seen to have a significant effect in maximizing heavy metals uptake (for example Cu²⁺, Cr³⁺, Cd²⁺ and Ni²⁺) by synthesized zeolites. Zeolite 4A gave better heavy metal uptakes than amorphous or non-zeolite crystalline materials. This was attributed to higher ion-exchange capacity and higher BET specific surface area 445 m²/g and pore volume 0.141 cm³/g. The latter attribute possibly translates to greater accessibility of ion-exchange sites and selectivity towards metal type by this zeolite followed the sequence: Cu²⁺ > Cr³⁺ ≥ Cd²⁺ > Ni²⁺.     

Low-temperature adsorption/storage of hydrogen on FAU, MFI, and MOR zeolites with various Si/Al ratios: effect of electrostatic fields and pore structures

Several zeolites, such as faujasite, mordenite, and ZSM-5, with various aluminum contents have been used to analyze the effect of aluminum or cation concentration (strength of electrostatic field) on hydrogen adsorption at low temperature. Irrespective of the zeolite structure, the adsorption capacity, isosteric heat of adsorption (-DeltaHads), surface coverage, and micropore occupancy increase with increasing aluminum content of a zeolite. Zeolites with a higher amount of aluminum favorably adsorb hydrogen at relatively low pressures. For zeolites with similar aluminum contents, the adsorption capacity, isosteric heat of adsorption, surface coverage, and micropore occupancy are in the order of mordenite>ZSM-5>faujasite, probably due to differing pore sizes and the presence or absence of pore intersections. This work demonstrates that zeolites with strong electrostatic fields and narrow pores without intersections are beneficial for high hydrogen uptake.     

Ethylenediamine effect on the sorption of cesium on zeolites ZSM-5 and Y

The sorption of cesium was studied on zeolites ZSM-5 and Y. It was found that the sorption is much higher on zeolite Y than in ZSM-5 and it depends on the crystalline network of the zeolite. It was found as well that the main uptake mechanism involved in both zeolites for cesium was ion exchange.     

微介孔复合分子筛合成及其在汽车冷启动尾气控制中的应用

分别采用稀溶液和浓溶液双模板剂两步水热合成法,以二氧化硅微硅粉和铝酸钠为硅源和铝源,第一步获得β分子筛晶种,第二步以β分子筛晶种为结构单元组装形成兼具MCM-41分子筛和β分子筛结构特点的复合型分子筛β/M(其中β是指β分子筛,M是指MCM-41介孔分子筛).采用X射线衍射(XRD)、傅里叶变换红外(FT-IR)光谱、氮气吸附(BET)和高分辨透射电镜(HRTEM)对样品的物相结构和微观形貌进行了表征,并对复合分子筛的合成过程进行了分析.结果表明:复合分子筛β/M的形成是微孔β结构和介孔MCM-41结构的竞争生长过程,β分子筛晶种的晶化时间和晶粒度大小对β/M复合分子筛的结构有重要影响.此外,我们以甲苯为探针分子,比较研究了三类分子筛β/M、MCM-41和β的原样以及经高温水热处理后样品的吸附性能,结果表明:β/M复合分子筛的热稳定性优于介孔分子筛MCM-41,其甲苯吸附容量比MCM-41和β分子筛的高,其中以浓溶液法合成的复合分子筛吸附容量最高.     

Distribution of aluminum and boron in the periodical building units of boron-containing Beta zeolites

Various boron only ([B]-BEA) as well as aluminum- and boron-containing beta zeolites ([Al,B]-BEA) have been prepared and modified by ion exchange of ammonium, sodium, and nickel ions. The zeolite samples have been characterized by 11B, 27Al, and 29Si MAS as well as three of them by 11B and 27Al 3Q-MAS NMR spectroscopy. The quantitative contributions of defect-free Si(nX) (n = 2, 1, 0; X = Al, B) and Si(OH)x (x = 2, 1) sites to the NMR signal intensities were calculated from the various Si/(Al + B) ratios and relative 11B, 27Al, and 29Si NMR signal intensities using the special distribution of aluminum and boron in different periodical building units of the zeolite framework. The boron atoms are sitting exclusively in diagonal positions in the four-membered rings of [B]-BEA zeolites, while the aluminum atoms are situated both in diagonal and lone positions in the four-membered rings of [Al,B]-BEA zeolites. A higher part of boron atoms are positioned in framework-related deformed tetrahedral boron species than in lattice positions in the [B]-BEA than in the [Al,B]-BEA zeolites. All extraframework octahedral aluminum species are transformed back to lattice positions due to ion exchange from the protonated form to ammonium-, sodium-, or nickel-ions containing zeolites. Oppositely, trigonal boron leaves the zeolite structure completely during ion exchange.