核-壳介孔SiO_2微球的超微结构及拉曼光谱分析

采用溶胶-凝胶法制备了核-壳介孔SiO2微球,分别利用透射电镜和拉曼光谱对该微球的超微结构进行了观察及光谱分析。结果表明:制备的核-壳介孔SiO2微球是由外表面孔径为7nm、厚度30nm的有序介孔SiO2壳层,包裹着核直径为200nm的实心SiO2微球所组成,介孔壳层具有较大的比表面积,具有良好的光谱性质。     

Pd-SiW12/SiO2催化乙烯气相直接氧化制乙酸:SiO2孔结构的影响

采用二三种不同孔结构的Si02制备了Pd-SiW12/SiO2催化剂,通过x射线衍射、N2物理吸附、吡啶吸附红外光谱以及H2脉冲化学吸附对催化剂进行了表征,并考察了Pd-SiW12/SiO2催化剂上乙烯直接氧化制乙酸反应性能.结果表明,以孔径较大的粗孔硅胶为载体制备的Pd-SiW12/SiO2催化剂显示出最高的催化活性,乙酸收率为145.2g/(L·h).这是由于Pd在粗孔硅胶载体表面良好的分散使其具有较高的催化活性.     

介孔碳纳米纤维制备与超电容性能研究

采用低分子量酚醛树脂/F127混合物填充多孔氧化铝模板孔道,制备了大尺寸介孔孔道、核-壳结构的介孔碳纳米纤维.分别以SEM、TEM及N2等温吸附-脱附观察分析样品形貌和孔结构参数.循环伏安与恒流充放电测定该介孔纳米纤维电极(阳极)的超电容性能.结果表明:介孔碳纳米纤维比电容明显增大,且在高扫速、大电流下具有良好的超电容特性.     

硅胶原位合成ZSM-5分子筛及其催化性能的研究

以正丁胺为模板剂,采用水热晶化法在固体硅胶小球上原位合成了ZSM-5分子筛。考察了晶化温度、晶化时间、初始凝胶硅铝比及H2O/ SiO2、BuNH2/ SiO2、OH-/SiO2对ZSM-5相对结晶度的影响,得到了ZSM 5的合成化学规律。采用XRD、SEM、FT IR及N2吸附手段对固体硅胶小球上原位合成的复合结构分子筛进行了表征。结果表明,这种材料具有介孔和微孔的复合结构特征,而且很好地保持了硅胶小球的形貌。以大庆VGO为原料,在重油微反装置上对该复合结构分子筛进行催化性能评价。结果表明,使用硅胶原位合成的ZSM-5分子筛可显著提高低碳烯烃选择性和收率。     

介孔SiO_2包覆Ag/ZIF-8核壳型催化材料的合成

通过液相自组装制备了Ag/ZIF-8;进一步以十六烷基三甲基溴化铵(CTAB)为结构导向剂,在疏水Ag/ZIF-8颗粒表面包覆一层介孔二氧化硅(MS)壳,合成了具有核壳结构的Ag/ZIF-8@MS催化剂,并对其进行了结构和性能表征.结果表明,Ag/ZIF-8@MS具有均一的颗粒尺寸(Ag/ZIF-8@MS粒径约为100 nm,Ag粒径约为15 nm)、较高的比表面积(539 m~2/g)及较大的孔体积(0.64 m~3/g);透射电子显微镜表征结果表明,介孔二氧化硅表层厚度约为20 nm.于550℃煅烧后,催化剂结构转变成Ag/Zn O@MS核壳结构.以催化对硝基苯酚生成对氨基苯酚为模型反应,对2种结构的Ag催化剂的催化性能进行了测试.催化反应结果表明,核壳型结构Ag/ZIF-8@MS材料催化对硝基苯酚反应的转化率超过95%,证明了这种以ZIF-8为载体的核壳型材料的优势.     

特殊结构新型液相色谱填料的研究进展

本文对最近报道的几种特殊结构液相色谱填料的制备及应用进行评述,包括新型载碳的核壳结构硅胶色谱填料的制备与应用;新型硅胶基质耐酸超桥联固定相的制备及应用和β-环糊精杂化硅胶整体柱的制备及其在手型分离的应用。     

氮掺杂TiO2/SiO2核壳型复合微球的制备及其可见光催化性能

 以单分散性良好的SiO2微球为模板,以钛酸四丁酯为钛源,利用化学吸附和原位水解方法制备了TiO2/SiO2核壳结构复合微球,并在氨气气氛下进行了氮掺杂. 以罗丹明B水溶液的光催化降解为模型反应,评价了所制试样在可见光照射下的光催化活性,并借助透射电镜、高分辨透射电镜、 X射线衍射、紫外-可见漫反射光谱、红外光谱和X射线光电子能谱等测试手段对其结构、形貌和光谱性质进行了表征. 结果表明,氮掺杂TiO2/SiO2为核壳结构, TiO2包覆层厚约10 nm. 由于SiO2核与TiO2壳间形成了 Ti-O-Si 键, TiO2的热稳定性增强. 掺杂的氮形成了 Ti-O-N 键. 600 ℃下氮化1 h得到的试样的可见光活性最佳. 由于结合了SiO2核优良的吸附性能及氮掺杂TiO2壳的可见光响应性能,该复合微球在整体上表现出比P25更优的光催化活性.     

有序介孔硅包碳复合结构的制备及其储锂行为

以P123嵌段模板法合成SiO2-有序介孔(SiO2-OMPs)短棒状结构,以此为前驱体通过镁热还原和酚醛树脂碳包覆处理,成功制备出有序介孔硅/碳复合结构(Si/C-OMPs),用于锂离子电池负极材料测试。从扫描电镜图(SEM)和透射电图(TEM)观察发现,SiO2-OMPs形态可以通过HCl溶液浓度有效调控,在高浓度下获得高堆积密度的粒状有序介孔结构,并在镁热还原和碳包覆处理后这种有序介孔结构均得到完美保持。X射线衍射(XRD)数据的分析表明,镁热还原反应包括两步串连反应:Mg和SiO2先反应形成Mg2Si中间相,而后该相再还原剩余SiO2并获得终产物Si。第二步反应属于缓慢的固/固扩散过程,抑制了整个还原反应的完成,导致Si产率低且存在杂质相。电化学测试表明,由于其坚固的结构和畅通的介孔系统,有序介孔Si/C复合结构具有优异的循环稳定性和倍率性能。     

用实验和模拟计算确定SiO2空心微球的孔径分布

用巨正则系综蒙特卡罗（GCMC）模拟方法结合统计积分方程（SIE）计算了SiO2空心微球球壳上的孔径分布（PSD）.HRTEM、XRD及氮气吸附等实验测试表明,SiO2空心微球的球壳上有无序的介孔孔道.在模拟中,基于实验数据,将SiO2空心微球模型化为具有一定孔径分布的园柱孔,流体模型化为Lennard-Jones(LJ)球,流体分子和孔壁间的相互作用采用Wang等人[10]最近提出的完全解析的势函数描述.模拟结果显示,用孔径分布拟合的吸附数据和实验吸附等温线吻合良好,说明PSD能够十分有效地表示SiO2空心微球的微孔结构.     

ZSM-5@Mesoporous Silica核壳复合结构分子筛的制备及其甲苯甲醇烷基化择形催化性能的研究

采用阳离子表面活性剂模板法在ZSM-5晶体颗粒表面外延生长介孔氧化硅壳层来调变其外表面酸性, 制备了具有高择形催化性能的介孔氧化硅包裹ZSM-5分子筛的微孔-介孔核壳结构复合材料ZSM-5@mesosilica. 扫描电镜和高分辨透射电镜表征显示, 具有无序孔道结构的介孔壳层均匀包覆于ZSM-5晶粒的外表面, 而且壳层的厚度在一定范围内可调变; 另外, 壳层介孔的孔道走向垂直于分子筛核, N₂吸附曲线表明复合材料的微孔和介孔具有互通性. 吡啶吸附和氨吸脱附实验结果证明这些分子可以自由扩散进入分子筛的微孔道, 并且介孔壳层包覆以后ZSM-5分子筛内的酸性位和强度基本没有变化. 用固定床评价了该复合分子筛对甲苯甲醇烷基化反应的催化性能, 结果表明, 与常规ZSM-5相比, ZSM-5@mesosilica核壳材料表现出了较高的对位选择性. 核壳材料独特的择形催化性能归因于介孔氧化硅壳层将ZSM-5非择形性的外表面酸性位部分覆盖, 从而抑制了对二甲苯在外表面的二级异构化反应.     

A versatile method for the production of monodisperse spherical particles and hollow particles: templating from binary core-shell structures

Using the porosity of a binary exotemplate, with mesoporous core-shell structure (SiO2@ZrO2), opens a new pathway to produce hybrid core-shell spheres, composite hollow spheres, and porous hollow spheres -- all monodisperse in size.     

疏水高分子介导可动芯SiO2杂化纳米粒子的仿生合成

在疏水高分子胶体模板——含氟丙烯酸酯(FA)共聚物乳胶粒中引入能够介导SiO2原位沉积的聚胺催化活性点-甲基丙烯酰氧乙基三甲基氯化铵(DMC),以四甲氧基硅烷(TMOS)为硅源,在环境条件下可控合成了核壳型FA共聚物/SiO2杂化纳米粒子.高温煅烧除去聚合物核质,可得到中空的SiO2纳米粒子,结合FTIR、EDX、TGA以及XPS等表征数据印证了SiO2的沉积主要发生在聚合物模板的表面.进一步考察了反应条件,如聚胺功能单体DMC的浓度、TMOS的浓度以及反应时间对SiO2杂化纳米粒子的形貌与组成的影响.实验结果表明增加DMC或者TMOS的浓度,适当延长反应时间,均可增加SiO2粒子的沉积速率,导致SiO2壳层的厚度增加,并且杂化粒子的形貌由凹陷多褶皱的核壳结构向可动芯结构转变.由于FA共聚物模板的强疏水性,增加有机核层和无机壳层间的不相容排斥,最终导致核壳层间空腔的形成,得到含可动芯的核壳型SiO2杂化粒子.     

Synthesis of silica/carbon-encapsulated core-shell spheres: templates for other unique core-shell structures and applications in in situ loading of noble-metal nanoparticles

Silica@carbon core-shell spheres have been synthesized via a hydrothermal carbonization procedure with glucose as the carbon precursor and silica spheres as the cores. Such SiO(2)@C core-shell spheres can be further used as templates to produce SiO(2)@C@SiO(2), and SiO(2)@SiO(2) spheres with a vacant region in two SiO(2) shells, noble-metal nanoparticle loaded SiO(2)@C core-shell spheres, and hollow carbon capsules through different follow-up processes. The obtained core-shell materials possess remarkable chemical reactivity in reducing noble-metal ions to nanoparticles, e.g., platinum. These unique core-shell spherical composites could find applications in catalyst supports, adsorbents, encapsulation, nanoreactors, and reaction templates.     

Application of liquid phase deposited titania nanoparticles on silica spheres to phosphopeptide enrichment and high performance liquid chromatography packings

A novel core-shell composite (SiO(2)-nLPD), consisting of micrometer-sized silica spheres as a core and nanometer titania particles as a surface coating, was prepared by liquid phase deposition (LPD). Here, we show the resulting core-shell composite to have better efficient and selective enrichment for mono- and multi-phosphopeptides than commercially available TiO(2) spheres without any enhancer. The material exhibited favorable characteristics for HPLC, which include narrow pore size distribution, high surface area and pore volume. We also show that the core-shell composite can efficiently separate adenosine phosphate compounds due to the Lewis acid-base interaction between titania and phosphate group when used as HPLC packings. After coating the silica sphere with titania by LPD, the silanol of silica spheres will be shielded and that the stationary phase, C(18) bonded SiO(2)-3LPD, could be used under extreme pH condition.     

CdSe/CdS/SiO2复合纳米球的制备及发光性能

采用两相法合成了CdSe/CdS核-壳结构的量子点, 用氨水催化水解正硅酸乙酯制得复合结构的CdSe/CdS/SiO₂发光纳米球. 通过对量子点用量、氨水用量、反应时间及溶剂比例等实验条件的调节, 得到了单分散性较好, 尺寸在23~145 nm的复合发光纳米球. 利用紫外-可见吸收光谱和荧光发射光谱对其发光性能进行了研究, 同时利用透射电镜(TEM)观察复合纳米球的形貌. 结果表明, 复合发光纳米球样品的最高荧光量子产率可达8%.     

Ordered mesoporous silica-(ZIF-8) core-shell spheres

Silica-(ZIF-8) core-shell spheres with tuneable ordered meso-microporosity have been synthesized, showing that the hydrophobic micropore ZIF-8 shell controls the access of guest molecules into the hydrophilic silica mesoporous structure.     

纳米结构TiO2／SiO2的逐层自组装

采用逐层自组装方法在二氧化硅球表面交替组装了十二烷基硫酸钠单分子膜和 二氧化钛纳米粒子膜，该复合多层膜经高温假烧后得到了核壳型纳米结构二氧化钛 ／二氧化硅复合颗粒．利用XRD，SEM，X射线能谱等对复合颗粒进行了表征．结果 表明：二氧化肽在复合颗粒表面排列紧密、均匀，粒径在50nm左右，为锐钛矿型结 构．复合颗粒中二氧化肽的含量随组装层数的增加而均匀增加．     

The effect of interfacial microstructure on the lipid oxidation stability of oil-in-water emulsions

Novel rattle-type magnetic mesoporous carbon spheres are successfully prepared using composite spheres with Fe(3)O(4) as core and mesoporous SiO(2) as shell plus solid SiO(2) as a middle layer as templates. These rattle-type spheres possess the magnetization strength of as high as 37.5 emu/g, high and tunable specific surface areas (382-512.6 m(2)/g) due to mesoporous carbon shells. This magnetic rattle-type structure and the readily accessible mesoporous shell are very favoring for the fast adsorption and release of guest objects triggered by external stimulus, for example, the spheres showed very good adsorptive property to dye.     

Adsorption property of congo red from aqueous solution by Cu-BTC/SiO 2 composite

The adsorption behavior of congo red from aqueous solution on Cu-BTC/SiO2 was investigated. Cu-BTC/SiO2 with mesoporous structure and large surface area was prepared by loading Cu-BTC into the mesoporous silica using in-situ synthesis method. The X-ray diffraction, scanning electron microscopy, and nitrogen adsorption–desorption analysis were used to characterize the structure and morphology of the prepared materials. The adsorption studies showed that the adsorption isotherm of congo red on Cu-BTC/SiO2 fitted well with Freundlich adsorption model and congo red is easy to be adsorbed by Cu-BTC/SiO2. The thermodynamic study showed that the adsorption behavior of congo red on Cu-BTC/SiO2 is an exothermic process at temperature under investigation.     

Core-shell structure CdS/TiO2 for enhanced visible-light-driven photocatalytic organic pollutants degradation

CdS modified mesoporous titania core-shell spheres (CdS/CS-TiO₂) with enhanced visible-light activity were synthesized by an in situ method. This method included two steps: planting CdO into the framework of anatase TiO₂ core-shell spheres and then converting it to CdS by ion-exchange. The physicochemical properties of the obtained samples were investigated by X-ray diffraction, scanning electron microscopy, transmission electronic micrograph, UV–vis diffuse reflectance spectra and nitrogen sorption. The in situ strategy resulted in CdS quantum dots highly dispersed in CS-TiO₂ without destroying the mesoporous core-shell structure. Compared with CS-TiO₂, the as-synthesized samples exhibited stronger visible-light absorption capability and greatly enhanced photocatalytic activity toward the degradation of Rhodamine B and 4-chlorophenol aqueous solution under visible light irradiation (λ > 420 nm).