微米级MEL分子筛聚集体的制备(英文)

使用四丁基氢氧化铵-正硅酸四乙酯-水(TBAOH-TEOS-H2O)简单体系一步水热制备了具有多级孔道的微米级MEL结构分子筛聚集体.得到的silicalite-2微米球直径大于10μm且具有高达460 m2·g-1的比表面积和0.74 cm3·g-1的孔体积.微米球的生成一定程度上解决了催化应用过程中催化剂的分离和回收问题.同时,水热晶化过程中由纳米粒子自组装而成的晶间介孔缩短了反应物分子的扩散路径,保持了分子筛纳米晶粒的优势.此外,钛活性位的引入并未明显影响MEL微米球的形貌和结构,含钛的MEL微米球TS(钛硅分子筛)-2在苯酚羟基化反应中具有与纳米尺寸TS-1(100-200 nm)相当的催化活性,且TS-2可以通过简单过滤得到,简化了纳米级TS-1的分离和回收过程.     

氮掺杂介孔碳的制备及其电化学超电容性能

通过直接炭化沸石咪唑酯骨架结构材料（ZIF-8）纳米多面体,成功制备了氮掺杂介孔碳（NMCs）. 采用扫描电子显微镜（SEM）、透射电子显微镜（TEM）、X射线衍射（XRD）、拉曼光谱、X射线光电子能谱（XPS）及比表面和孔隙度分析仪对其微观形貌和结构进行了表征,并对NMCs的电化学超电容性能进行了测试. 结果表明：NMCs具有规整的形貌、介孔纳米结构和较大比表面积（2737 m²·g^-1）;由于氮元素掺杂所赋予的优异的表面润湿性和赝电容性能,且介孔结构有利于电解质到达电极活性材料表面,NMCs表现出优异的电化学超电容性能,在1 A·g^-1的电流密度下,1.0 mol·L^-1H₂SO₄溶液中的比电容值为307 F·g^-1,并具有良好的功率特性;此外,在10A·g^-1的大电流密度下充放电循环5000次后,NMCs的比电容值保持率为96.9%.     

无模板剂合成用于超级电容器的二氧化锰/石墨烯复合材料

以尿素、四水合氯化锰和氧化石墨烯为原料,采用水热法并通过热分解制备了一种具有石墨烯包覆结构的石墨烯-二氧化锰复合材料,利用扫描电子显微镜、X射线衍射、比表面积（BET）、拉曼光谱和热失重等技术对其形貌、晶体结构及表面结构进行了表征;在三电极条件下利用循环伏安法、恒流充放电法和交流阻抗法测试了材料的电化学性能,并考察了不同石墨烯含量对材料比电容的影响. 结果表明,在不添加模板剂的条件下制备的复合材料中二氧化锰是具有介孔结构的α-MnO₂,当复合15%（质量分数）的石墨烯后材料的比表面积从109 m²·g^-1提高到168 m²·g^-1. 复合材料具有更好的电化学性能,在0.2 A·g^-1电流密度下复合材料的比电容达到最大值（454 F·g^-1）,远高于纯二氧化锰的值（294 F·g^-1）. 在2 A·g^-1的电流密度下恒流充放电2000 次后复合材料的比电容保持率为92%.     

银纳米颗粒负载阶层多孔二氧化硅块体的制备及表征

以溶胶-凝胶伴随相分离法制备的阶层多孔二氧化硅作为载体,3-氨丙基三乙氧基硅烷（APTES）为改性剂,乙醇为还原剂,在阶层多孔二氧化硅固体骨架上进行银纳米颗粒均匀负载. 利用扫描电镜（SEM）、透射电镜（TEM）、X射线衍射（XRD）、汞压、N₂吸附/脱附、X射线光电子能谱（XPS）等测试技术对银纳米颗粒负载阶层多孔二氧化硅进行了表征,探讨了APTES表面改性、乙醇还原机理以及银纳米颗粒负载块体的孔结构特征变化规律. 结果表明：APTES表面改性将氨基接枝于阶层骨架上,氨基与银离子形成银氨离子,银氨离子经乙醇还原后将平均粒径约16 nm的银纳米颗粒成功负载于二氧化硅的大孔及介孔内部;负载后的阶层多孔块体的大孔骨架未受到破坏,但其比表面积由418 m²·g^-1下降到254 m²·g^-1,两次还原负载能提高银纳米颗粒的负载量.     

对苯二甲酸镁作为钠离子电池的有机负极材料

报道了对苯二甲酸镁作为钠离子电池负极材料的研究. 以对苯二甲酸和氢氧化镁为原料,采用酸碱中和反应制备了含结晶水的对苯二甲酸镁（MgC₈H₄O₄·2H₂O）,该材料对钠离子电池表现出了较好的电化学活性、优异的倍率性能以及良好的循环稳定性. 在0.5C（1C=300 mA·g^-1）倍率下循环50 周以后,可逆容量由114mAh·g^-1降至95 mAh·g^-1,容量保持率高达83%;在2C的倍率下有高达90 mAh·g^-1的可逆比容量. 另外,在氮气气氛中,400 ℃进行后续热处理得到了不含结晶水的对苯二甲酸镁（MgC₈H₄O₄）,探讨了结晶水对其电化学性能的影响. 结果表明,MgC₈H₄O₄·2H₂O的比容量、倍率性能以及循环稳定性都明显优于不含结晶水的对苯二甲酸镁.     

水热-溶胶-凝胶法合成多壁碳纳米管-Na3V2（PO4）3复合物及其作为锂离子电池正极材料的性能

采用水热和溶胶-凝胶相结合的方法,制备了具有良好电化学性能的新型多壁碳纳米管-Na₃V₂（PO₄）₃（MWCNT-NVP）复合材料（MWCNT的质量分数为8.74%）. 通过场发射扫描电子显微镜表征可知,MWCNT分散在NVP纳米颗粒之间,并起到“电子导电线”的作用. 与纯Na₃V₂（PO₄）₃相比,MWCNT-NVP具有更高的比容量和更优异的循环性能. 在0.2C（35.2 mA·g^-1）的电流密度下,3.0-4.5 V的电压范围内,MWCNT-NVP的初始比容量为82.2 mAh·g^-1. 循环100次以后,比容量为72.3 mAh·g^-1. 在1.0-3.0 V充放电时,MWCNT-NVP的初始容量为100.6 mAh·g^-1. 100次循环以后,其容量保持率高达90%. 同时,交流阻抗测试表明,由于MWCNT的存在,MWCNT-NVP的导电性有了显著的提高. 以上结果表明,MWCNT-NVP是一种良好的锂离子电池电极材料.     

锌镍铝水滑石微球的制备及吸附性能

以Zn（NO₃）₂·6H₂O、Ni（NO₃）₂·6H₂O、Al（NO₃）₃·9H₂O和尿素为原料,采用一步水热法制备分散性良好的三元锌镍铝水滑石（ZnNiAl-LDHs）微球。通过X射线衍射（XRD）、傅里叶转换红外光谱（FTIR）、场发射扫描电镜（FESEM）、透射电镜（TEM）和氮气吸附-脱附等测试手段对样品的结构和形貌进行表征,并比较ZnNiAl-LDHs和ZnAl-LDHs对甲基橙（MO）的吸附性能。结果表明,ZnNiAl-LDHs是由纳米片组成、具有3D结构的微球,粒径为1~2.5 μm,比表面积为156 m²·g^-1,远大于ZnAl-LDHs的比表面积38 m²·g^-1;ZnNiAl-LDHs和ZnAl-LDHs对甲基橙的饱和吸附量分别为329.60和143.47 mg·g^-1,ZnNiAl-LDHs表现出更强的吸附能力,其吸附等温线和吸附动力学分别符合Langmuir等温线模型和准二级动力学模型。     

功能化有序介孔碳对重金属离子Cu(II)、Cr(VI)的选择性吸附行为

以三嵌段共聚物F127为模板剂, 酚醛树脂为碳源, 正硅酸乙酯为硅源, 三组分共组装合成介孔碳?氧化 硅纳米复合物, 再经HF去除氧化硅, 得到有序介孔碳(OMC). X射线衍射(XRD)、透射电子显微镜(TEM)、低温 N2吸脱附(BET)等测试表明, 所得样品具有高度有序的介孔结构, 比表面积和孔容分别为1330 m²·g^-1和2.13 cm³·g^-1, 平均孔径6.4 nm. 对其先氧化、后氯化、再胺化, 得到不同胺基接枝量的胺化介孔碳(C-NH₂(m), m为加入的乙二胺的质量(g)). 傅里叶变换红外(FT-IR)光谱表征结果证实, 胺基官能团成功接枝到有序介孔碳表面.TEM测试表明介孔碳的有序孔道结构得到了较好的保持. 以有序介孔碳、胺化介孔碳作吸附剂对Cu(II)、Cr(VI)进行选择性吸附研究. 结果表明: 功能化修饰前, 样品对Cu(II)、Cr(VI)饱和吸附量分别为213.33、241.55 mg·g^-1; 修饰后饱和吸附量可分别达到495.05、68.21 mg·g^-1. 功能化介孔碳表现了较强的选择性吸附Cu(II)的能力.     

以氨基化的聚苯乙烯微球为模板制备电致变色性能优良的单层有序多孔PBTB薄膜

以氯化钨和氧化石墨烯(GO)为原料,乙醇为溶剂,一步合成了WO₃纳米棒/石墨烯纳米复合材料(WO₃/RGO). 将WO₃/RGO纳米复合材料用于锂离子电池负极,并通过充放电测试、循环伏安(CV)和电化学阻抗谱(EIS)技术综合考察了该材料的储锂性能. 结果显示,在0.1C (1C=638 mA·g^-1)倍率下,复合物的首次放电比容量达到761.4 mAh·g^-1,100次循环后可逆容量仍保持在635 mAh·g^-1,保持率为83.4%. 即使在5C倍率下容量仍高达460 mAh·g^-1. 由此说明,WO₃/RGO纳米复合物具有优异的循环稳定性及倍率性能,可望用于高性能锂离子电池.     

介孔调变对CuY催化剂甲醇氧化羰基化反应活性的影响

碱溶液处理NaY分子筛形成的介孔有利于反应物及产物分子的扩散,调节碱溶液浓度可控制Y分子筛中的介孔结构,通过溶液离子交换法制备CuY催化剂,研究了NaY分子筛介孔结构调变对CuY催化剂催化甲醇氧化羰基化反应活性的影响。通过BET、²⁹Si-NMR、XRD、NH3/CO-TPD、H₂-TPR和TEM等表征及催化活性分析表明,在碱溶液处理过程中,NaY分子筛骨架中的Si（0Al）和Si（1Al）原子被优先脱除,且笼结构坍塌使得临近超笼连接,逐步形成直径为3.47~3.66 nm,孔容介于0.142~0.226 cm³·g^-1的介孔,在提高反应物分子和产物分子扩散性能的同时,提高了活性物种的可接近性。随着碱液浓度的增加,CuY催化剂的催化活性先升高后降低。当碱液浓度为0.2 mol·L^-1时,NaY分子筛介孔直径为3.47 nm,孔容达到最大（0.226 cm³·g^-1）,相应CuY催化剂DMC的时空收率、选择性和甲醇转化率分别达到204.0 mg·g^-1·h^-1、67.8%和14.0%,活性最佳。     

Preparation and catalytic activity of titanium silicalite-1 zeolite membrane with TPABr as template

The preparation of the supported titanium silicalite-1 (TS-1) zeolite membrane with inexpensive tetrapropylammonium bromide (TPABr)/weak base synthesis system was studied by three methods, and the catalytic activity of the obtained TS-1 zeolite membrane was evaluated with the oxidation of 2-propanol (IPA) under pervaporation condition. It was found that TS-1 zeolite membrane could be successfully prepared with “seeding” or “seeding in situ” method, but could not be achieved with “in situ” method. Adding a little amount of promoter ions of PO₄³⁻ into the synthesis gel was of benefit to the catalytic activity of the prepared TS-1 zeolite membrane, but had no obvious effect on the membrane layer formation on the mullite porous support. For “seeding” method, the membrane prepared with the synthesis gel having molar composition of SiO₂:0.1TPABr:0.9Et₂NH:0.03TiO₂:80H₂O:0.06H₃PO₄ at 150 °C for 48 h showed the highest oxidation conversion of IPA of 72% accompanied by a flux of 0.35 kg/m² h. Further more, much higher IPA oxidation conversion of 76% accompanied by a flux of 0.65 kg/m² h was obtained for the TS-1 zeolite membrane prepared with the same synthesis gel by “seeding in situ” method at 150 °C for 72 h.     

Synthesis of mesoporous zeolite single crystals with cheap porogens

Mesoporous zeolite (silicalite-1, ZSM-5, TS-1) single crystals have been successfully synthesized by adding soluble starch or sodium carboxymethyl cellulose (CMC) to a conventional zeolite synthesis system. The obtained samples were characterized by X-ray diffraction (XRD), Fourier transform infrared spectroscopy (FT-IR), scanning electron microscopy (SEM), transmission electron microscopy (TEM), nitrogen sorption analysis, ²⁷Al magic angle spinning nuclear magnetic resonance (²⁷Al MAS NMR), temperature-programmed desorption of ammonia (NH₃-TPD) and ultraviolet-visible spectroscopy (UV-vis). The SEM images clearly show that all zeolite crystals possess the similar morphology with particle size of about 300 nm, the TEM images reveal that irregular intracrystal pores are randomly distributed in the whole crystal. ²⁷Al MAS NMR spectra indicate that nearly all of the Al atoms are in tetrahedral co-ordination in ZSM-5, UV-vis spectra confirm that nearly all of titanium atoms are incorporated into the framework of TS-1. The catalytic activity of meso-ZSM-5 in acetalization of cyclohexanone and meso-TS-1 in hydroxylation of phenol was also studied. The synthesis method reported in this paper is cost-effective and environmental friendly, can be easily expended to prepare other hierarchical structured zeolites.     

Synthesis of titanium silicalite-1 (TS-1) zeolite with high content of Ti by a dry gel conversion method using amorphous TiO2–SiO2 composite with highly dispersed Ti species

In this study, we have developed a new method to synthesize mesoporous titanium silicalite-1 (TS-1) with a higher content of active titanium in the framework (more than 5%) than that obtained from the conventional hydrothermal synthesis. The new method combines two methods as follows: (1) a sol-gel method in tetrahydrofuran for the synthesis of TiO₂–SiO₂ composite with highly dispersed Ti species and (2) a dry gel conversion method for the crystallization to TS-1. This investigation revealed that the dispersion of Ti in the starting materials was quite important to synthesize mesoporous TS-1 with high content of Ti besides dry conversion method. The obtained mesoporous TS-1 with a high content of titanium showed higher catalytic activity in 1-hexene epoxidation than conventional TS-1. This high activity is likely to originate from the high content of titanium in the framework.     

固定床反应器上挤条小晶粒TS-1催化丙烯环氧化反应

采用纳米TS-1母液作为晶种, 在四丙基溴化铵(TPABr)-乙胺廉价水热体系中, 合成出晶粒尺寸为600 nm×400 nm×250 nm的小晶粒钛硅分子筛(TS-1), 用挤条法将其成型, 得到的挤条小晶粒TS-1被用于催化固定床反应器中的丙烯环氧化反应. 采用X射线衍射(XRD)光谱, 傅里叶变换红外(FT-IR)光谱, 紫外-可见(UV-Vis)漫反射光谱及氮气物理吸附对挤条成型的小晶粒TS-1进行表征, 并对丙烯环氧化的最优反应条件进行考察. 其中所考察的条件包括: 反应温度, 压力, 丙烯/H₂O₂摩尔比(n(C₃H₆)/n(H₂O₂)), 丙烯、甲醇及H₂O₂的质量空速(WHSV), 以及NH₃·H₂O浓度. 在所考察的范围内, 温度对环氧丙烷(PO)收率的影响较小, 当反应压力为2.0 MPa, n(C₃H₆)/n(H₂O₂)为4时, 可以得到最高的PO收率. 当丙烯、甲醇及H₂O₂的空速分别为0.93、2.5及0.25 h^-1时, PO在产物中的含量最高. 较低的NH₃·H₂O浓度对高PO收率更有利. 在优化的反应条件下, 对比不同晶粒大小TS-1的催化性能, 并考察了挤条小晶粒TS-1的长期运转性能, 连续反应1000 h, H₂O₂转化率及PO选择性仍能维持在95%以上.     

LAYER-BY-LAYER ASSEMBLY OF NANOZEOLITE BASED ON POLYMERIC MICROSPHERE: ZEOLITE COATED SPHERE AND HOLLOW ZEOLITE SPHERE

ABSTRACT

Zeolite β, silicalite-1, ZSM-5, and TS-1 coated spheres have been prepared successfully through layer-by-layer assembly of nanozeolite/polymer multilayers on polystyrene (PS) microspheres, and hollow zeolite spheres have been obtained by removal of the core by calcination. In the adsorption process of nanozeolites onto the polyelectrolyte-modified template spheres, it has been found that zeta potential of the zeolite colloidal solution that determines the electrostatic interaction has important effects on the zeolite adsorption procedure. The charge on the original sphere template is not necessary, because proper polyelectrolyte modification could change the surface property of the template and make it suitable for layer-by-layer adsorption. The influences of zeolite type and/or size (40–120 nm), the number of zeolite/poly(diallyl-dimethyl-ammonium) layer pairs, and the template sphere size (0.53–10.3 µm) on the preparation of the hollow zeolite spheres were also discussed.     

Increasing the propylene epoxidation activity of TS-1 catalysts by hydrothermal treatment of ammonia solution

Summary Treating titanium silicalite (TS-1) with ammonia solution under hydrothermal conditions proves to be an effective post-synthesis modification method for improving TS-1 catalytic activity in propylene epoxidation. Characterizations indicate that the treated TS-1 did not change TS-1 composition and generate more Ti (IV)-superoxide species (g_z = 2.0265, g_y = 2.0090, g_x = 2.0022) when interacting with aqueous H₂O₂(30 wt.%) compared with the as-synthesized one.</o:p>     

Synthesis and Characterisation of Hierarchically Structured Titanium Silicalite-1 Zeolites with Large Intracrystalline Macropores

The successful synthesis of hierarchically structured titanium silicalite-1 (TS-1) with large intracrystalline macropores by steam-assisted crystallisation of mesoporous silica particles is reported. The macropore topology was imaged in 3D by using electron tomography and synchrotron radiation-based ptychographic X-ray computed tomography, revealing interconnected macropores within the crystals accounting for about 30 % of the particle volume. The study of the macropore formation mechanism revealed that the mesoporous silica particles act as a sacrificial macropore template during the synthesis. Silicon-to-titanium ratio of the macroporous TS-1 samples was successfully tuned from 100 to 44. The hierarchically structured TS-1 exhibited high activity in the liquid phase epoxidation of 2-octene with hydrogen peroxide. The hierarchically structured TS-1 surpassed a conventional nano-sized TS-1 sample in terms of alkene conversion and showed comparable selectivity to the epoxide. The flexible synthesis route described here can be used to prepare hierarchical zeolites with improved mass transport properties for other selective oxidation reactions.     

Titanium Defective Sites in TS-1: Structural Insights by Combining Spectroscopy and Simulation

Ti silicates, and in particular, titanium silicalite-1 (TS-1), are nowadays important catalysts for several partial oxidation reactions in the presence of aqueous H₂O₂ as an oxidant. Despite the numerous studies dealing with this material, some fundamental aspects are still unclear. In particular, the structure and the catalytic role of defective Ti sites, other than perfect tetrahedral sites recognized as the main active species, has not been quantitatively discussed in the literature. We assess the structural features of defective Ti sites on the basis of outcomes of electronic spectroscopies, as interpreted through quantum mechanical simulation. Strong evidence is disclosed to support the fact that the most common defective Ti sites, often reported in the TS-1 literature, are monomeric Ti centers that are embedded in the zeolite framework, and which have a distorted octahedral local symmetry.     

Extensions in the synthesis and catalytic application of titanium silicalite-1

Titanium silicalite-1 (TS-1) was prepared by microwave heating of a SiO₂–TiO₂ xerogel, which was dry-impregnated with tetrapropylammonium hydroxide (TPAOH). Highly crystalline product was obtained, with the yields higher than 90%, within 30 min after microwave irradiation. These are significant advantages over the conventional oven heating using alkoxide precursors in liquid phase, which requires 1-2 day crystallization time with low product yields. Sub-micron sized SiO₂–TiO₂ prepared by thermal plasma process and Ti-containing mesoporous silica, Ti-HMS, were also tested as the solid phase precursor for TS-1. These were found inferior as precursor due to difficulties in uniformly wetting the surface with TPAOH. It was possible to prepare TS-1 using diethoxysiloxane-ethyltitanate (DESET, 93.75 mol Si:6.25 mol Ti) as a single mixed alkoxide precursor, but titanium species in the sample were highly unstable and large fraction of them came out from the framework to form TiO₂ clusters upon calcination. In addition, TS-1 monolith was prepared utilizing polyurethane foam as an infiltration medium of the synthesis gel. The prepared TS-1 monolith exhibited properties similar to those of TS-1 powders, but the elementary unit of the former was made of 1–2 micron-sized hexagonal shaped crystals, causing diffusion problems. Catalytic activities of all the prepared catalysts were evaluated using 1-hexene epoxidation as a probe reaction, and 2,5-dihydrofuran epoxidation was also examined using TS-1 as an alternative process to make 3,4-epoxytetrahydrofuran.