高温水热合成具有高稳定性的有序介孔材料

高温水热合成路线作为合成具有超高稳定性的介孔材料越来越受到人们的重视.本文对高温水热合成有序介孔材料的发展过程作一个简单的综述,合成路线包括使用碳氟表面活性剂和碳氢表面活性剂作为复合模板,有机季铵盐与碳氢表面活性剂作为复合模板以及最近报道的采用碳氢表面活性剂作为单一模板来合成系列的有序介孔材料,其组成为二氧化硅、氧化钛硅以及聚合物等.     

双模板法合成介孔/大孔二级孔道碳材料

以酚醛树脂低聚物为前驱物, 利用双模板法制备了具有介孔/大孔双孔结构的碳材料. 其中以二氧化硅蛋白石为大孔模板, 以嵌段共聚物自组装结构为介孔模板. 对样品进行了扫描电子显微镜(SEM), 透射电子显微镜(TEM), X射线衍射(XRD)和氮气吸附-脱附实验表征. 结果表明所制备的双孔碳材料大孔直径约为230 nm, 介孔直径10 nm.     

微孔-介孔复合结构分子筛的合成及表征研究

以工业现有的ZSM-5作为原料,经一定化学处理的ZSM-5作为部分硅铝源,与介孔分子筛的凝胶在水热条件下进行组装得到具有微孔、介孔双孔分布的复合分子筛,并采用XRD、N2吸附脱附、IR、SEM、TEM等测试手段对合成样品进行分析表征,考察了主要合成条件对分子筛性能的影响.结果表明,合成过程中微孔与介孔结构之间会相互转化,样品中微孔与介孔特征峰存在此消彼长的关系.非临氢反应结果表明,复合分子筛具有较高的异构化选择性.     

孔壁富含微孔有序介孔材料的设计合成及表征

通过调节水热处理溶液的酸度和温度,进而调控材料孔壁上硅羟基与模板剂的相互作用以及模板剂亲水嵌段嵌入到孔壁内的量,制备出了墙壁富含微孔的有序介孔材料SBA-15.氮气吸附测试表明,当水热处理溶液的pH值和温度分别为2.2和100℃时,经300℃焙烧脱除模板剂后的样品具有较高的微孔含量,其微孔体积为0.176cm3/g,占总孔体积的21.6%.     

高温水热合成具有超低介电常数的规则介孔氧化硅材料

分别以高分子三嵌段共聚物P123(PEO₂₀-PPO₇₀-PEO₂₀)和F127(PEO₁₀₆-PPO₇₀-PEO₁₀₆)为模板剂, 通过高温水热法制备了具有超低介电常数的规则介孔氧化硅材料(OMSs). 当合成温度达到200℃时, 得到的产物仍可保持规则的介孔结构. X射线衍射和氮气吸附结果表明, OMSs系列材料具有规则的二维六方或体心立方介孔结构、 大的比表面积和孔容及均一的孔径分布. ²⁹Si MAS NMR分析表明, OMSs与低温(100℃)合成产物相比具有更高的骨架缩合度, 从而具有优异的水热稳定性. 由于具有大的孔容和高的骨架缩合度, OMSs表现出了超低的介电常数. 以P123为模板剂, 200℃下合成的OMS的介电常数可达1.31. OMSs作为一类稳定的超低介电常数材料, 对于绝缘材料的发展具有潜在的应用价值.     

反相微乳液模板法合成介孔聚苯乙烯

提出并实施了反相微乳液为模板合成介孔聚合物的新方法. 通过考察氯仿/CTAB/水三元系反相微乳液的稳定性, 以及均相微乳液粒径变化规律, 得到了三元反相微乳液体系的稳定区域. 以(NH4)2S2O8为引发剂, 利用此反相微乳液为模板合成得到介孔聚苯乙烯材料. 产物的XRD图谱中有两个明显的衍射峰, 对应的晶面间距离d分别为2.6和1.3 nm, 1/d值之比等于1:2, 为层状结构. N2气吸附/脱附曲线表明大部分孔径为1.7 nm, 与动态光散射测得的微乳液液滴的尺寸相一致.     

以微孔β沸石为硅铝源合成强酸性介孔分子筛

以微孔β沸石为硅铝源,通过碱处理和以十六烷基三甲基溴化铵为模板剂,合成了具有较强酸性的六方结构介孔分子筛材料B-MCM-41,并采用XRD、N₂吸附脱附、FT-IR、²7Al MAS NMR、HRTEM和水热处理等手段对其进行了结构表征,采用NH₃-TPD对其进行了酸性表征。实验结果表明,B-MCM-41具有明显强于常规介孔分子筛的酸性,且在C⁺₁0混合芳烃加氢脱烷基化反应中表现出了良好的催化性能。这主要是由于碱溶液将β沸石降解为沸石结构单元,在表面活性剂作用下五元环次级结构单元被引入了介孔铝硅酸盐B-MCM-41的结构。     

溶胶-凝胶法构筑介孔二氧化硅纳微结构

基于硅酸脂水解/缩合的溶胶-凝胶法是目前制备SiO₂胶体最为常用的化学方法. 在溶胶-凝胶反应过程中, 引入介孔导向剂(通常是表面活性剂)可以得到具有介孔结构的SiO₂胶体. 通过对硅酸脂在多相体系界面水解/缩合过程的调控, 可以构筑具有不同纳微结构的介孔SiO₂材料, 为拓展介孔SiO₂材料的应用领域提供了新机遇, 同时也丰富了对溶胶-凝胶法的理解和认识. 本文综述了利用溶胶-凝胶法构筑介孔SiO₂纳微结构的最新研究进展, 并介绍了其在生物医药、 催化、 吸附分离等领域的应用前景, 最后对这一领域所面临的问题和未来发展方向进行了总结和展望.     

介孔-微孔复合材料的水热稳定性及其催化裂化性能

采用无模板剂的溶胶凝胶法制备了一系列具有均一介孔和MFI沸石微孔的复合材料.与MCM-41相比,包含silicalite-1沸石结构的复合材料的水热稳定性得到显著改善.1,3,5-三异丙苯的催化裂化反应结果表明,与商品HZSM-5沸石相比,包含ZSM-5沸石结构的复合材料具有更高的催化活性和抗积炭性能.三异丙苯的转化率...     

四氢呋喃聚合介孔催化剂Zr-PHTS合成、表征及反应性能

在水-有机溶剂复合体系中,以P123为结构导向剂水热直接合成了锆掺杂介孔固体酸催化剂(Zr-PHTS),运用XRD、TEM、N2吸附-脱附以及NH3-TPD、Py-FTIR等手段对催化剂进行了表征.结果表明,在硅锆摩尔比20-100考察范围内,所得Zr-PHTS样品均显示有序二维六方晶相结构,具有以L酸为主的中等强度的酸性中心;随着锆引入量的变化Zr-PHTS的比表面积仅显示少量的变化,孔径维持在9.8 nm;在四氢呋喃聚合反应中Zr-PHTS显示出较好的催化活性,硅锆摩尔比30的样品表现出最佳的催化性能,聚合物收率达到40.4%,数均分子量2 135,推测催化剂表面酸性和孔结构决定了催化剂对四氢呋喃的聚合性能.     

孔壁部分有序化的介孔二氧化硅材料的合成与表征

采用一种“改进的二次晶化”的方法处理介孔二氧化硅SBA-15. 用X射线衍射(XRD)、 透射电镜(TEM)、 电子衍射(ED)、 红外光谱(FTIR)以及固体核磁共振(NMR)等多种技术对样品进行了表征.　结果表明， 在所得样品的孔壁中, 原子的排列方式与普通介孔二氧化硅材料的孔壁不同， 显示一定程度的有序性. 同时, 高度有序的介孔结构得到很好的保持, 且样品的水热稳定性大幅度提高.     

Synthesis of Mesoporous Silica Materials via Nonsurfactant Templated Sol-Gel Route by Using Mixture of Organic Compounds as Template

Mesoporous silica materials have been successfully prepared by employing a mixture of -cyclodextrin and urea as a template in a HCl-catalyzed sol-gel process, followed by extraction with water. The obtained materials are characterized by nitrogen adsorption-desorption measurements, powder X-ray diffraction patterns and transmission electron microscopy. The changes of the pore parameters depend on both the weight ratio of -cyclodextrin and urea and the template content in the final silica composite. The effects of the mixture as template (or pore-forming agent) on the physicochemical properties of the two synthesized systems, with different weight ratio and same template content, as well as varied template content and fixed weight ratio, were investigated in this paper. The results show that the hydrogen bonding interactions between -cyclodextrin and urea molecules or urea aggregates, the urea-holding -cyclodextrin molecules themselves as well as inorganic species are the driving force in the formation of mesoporous silica materials.     

对环氧化反应具有高催化活性的钛硅介孔分子筛的制备

 使用短链二元羧酸（包括草酸、戊二酸、柠檬酸和酒石酸）为模板剂，采用溶胶－凝胶法合成了具有大比表面积，孔径在3～7nm的钛硅介孔分子筛．EDX和紫外可见漫反射光谱的研究结果表明，所合成的钛硅介孔分子筛中钛的分布均匀，钛物种以孤立态四面体构型为主．本方法所合成的钛硅介孔分子筛对环己烯环氧化反应具有很高的催化活性和选择性．     

高钛含量钛硅中孔材料的合成及理化性质研究

通过单独水解混合成胶在静态条件下采用水热晶化及水热后处理,在模版剂用量较低和n(Ti)/n(Si)高达1/4的条件下合成了钛硅中孔材料.XRD、FT-IR、UV-Vis DRS和催化选择氧化反应表征结果表明,新合成方法有效防止了成胶过程在高钛含量下产生不溶性钛硅物种,合成产物呈高度有序的MCM-41六方结构,并具有较高的热稳定性和催化选择氧化反应活性.四丁基氢氧化铵在成胶过程不仅有利于钛形成稳定的可溶性物种从而提高其利用率,同时还促进孔墙内基本结构单元的交联和有序化.     

Structured Hybrid Nanoparticles via Surface‐Initiated ATRP of Methyl Methacrylate from Ordered Mesoporous Silica

Structured hybrid nanoparticles were synthesized via surface‐initiated atom transfer radical polymerization of MMA from ordered mesoporous silica (OMS) nanoparticles with various morphologies. The design of the OMS particles was adjusted to target either spherical core‐shell or cylindrical morphologies with a mean diameter below 400 nm. The polymer growth via ATRP from the silica surface was well‐controlled as demonstrated by the macromolecular characteristics of the grafted chains. Original hybrid multilayered nanoparticles composed of either a dense silica core or hollow core; an inner OMS shell showing radial orientation of the mesopores and an outer PMMA shell with controlled thickness were successfully prepared.

     

Synthesis of Mesoporous Silica and Ti-containing Molecular Sieves via A Novel Assembly

Although titanium silicate-1 (denoted TS-1) is an effective catalyst for the selective oxidation of organic substrates1,2, the substrates that can be oxidized by TS-1 are limited to species having kinetic diameters ( 6 ?. However, the recently discovered silica-based mesoporous molecular sieve offers new opportunities for the preparation of large-pore TS-1 analogs capable of transforming larger organic molecules. The Ti-containing mesoporous molecular sieve catalysts thus obtained, are promi…     

Synthesis of Composite Polystyrene/Silica Nanoparticles via Precipitation and Emulsion Polymerization Methods

Polystyrene/silica composite nanoparticles were synthesized via precipitation and emulsion polymerization methods, in the presence of a basic co‐monomer (e.g., 4‐VP and 1‐VID), and a colloidal aqueous silica solution. The effects of key process parameters, that is, solvent type, monomer/co‐monomer volume ratio and total monomers concentration for precipitation polymerization, and reaction temperature, pH value, initial silica‐sol concentration and initial monomer/co‐monomer molar ratio for emulsifier‐free emulsion polymerization on the particle morphology, silica content, and particle size distribution of the composite nanoparticles were experimentally investigated. Stable, spherical, and uniform in size composite nanoparticles were synthesized by both techniques. The average particle diameter varied from 108 to 182 nm for the emulsifier‐free emulsion polymerization and from 400 to 800 nm for the precipitation polymerization, while the silica content was as high as 38.3 wt.‐% for the former method and up to 15.5 wt.‐% for the later. The synthesized composite polymer/silica particles were then electrolytically co‐deposited with zinc on steel plates to improve the corrosion resistance of the metal's surface.

     

Synthesis and Characterization of Fe-JLU-15 Mesoporous Silica Via a Microwave-Hydrothermal Process

Fe-JLU-15 materials with different Si/Fe ratios (Si/Fe = 90, 50, 10) have been synthesized by microwave-hydrothermal process and characterized by several spectroscopic techniques. Electrons spin resonance and Mössbauer spectroscopies, along with electron microscopy and X-ray diffraction, allowed differentiation of several iron species. These species correspond to hematite particles, very small “isolated” or oligomeric Fe^III species possibly incorporated in the mesoporous silica wall, and Fe^III oxide clusters either isolated or agglomerated, forming “rafts” at the surface of the silica and exhibiting ferromagnetic ordering. Because of their agglomeration, these clusters appear with a two-peak size distribution, with one peak corresponding to the isolated clusters formed in the mesopores and still embedded in them and the other corresponding to the agglomerates spread on the surface of the mesoporous silica particles.     

氧化硅-石墨烯气凝胶介孔复合材料的合成及其对苯的吸附性能

采用水热法快速合成了一种新型介孔氧化硅-石墨烯气凝胶复合吸附材料(MSGA)。通过X射线衍射、扫描电镜等方法对MSGA进行表征。结果表明,经过水热反应和冻干处理后的MSGA材料的介孔结构保持完好,介孔氧化硅在MSGA中的分散具有高度均一性。当介孔氧化硅的含量达到88.2(wt)%时,MSGA的比表面积可达395.5m~2/g。MSGA材料对苯蒸汽的常温常压吸附量为10.77mL/g,是石墨烯气凝胶的13倍,吸附穿透时间达到石墨烯气凝胶的34.4倍。在0.8%的环境湿度下,由于材料表面羟基的亲和性,进一步提升了对苯的吸附。得益于超低密度和丰富的内部孔隙结构,MSGA能够适应高达500mL/min的气流量。上述结果表明,该复合材料在VOCs消除领域具有广阔的应用前景。