介孔二氧化钛掺杂氧化锌及其CO催化氧化研究
本课题通过蒸发诱导自组装的方法(EISA),制备出了高比表面积和高结晶度的介孔二氧化钛/氧化锌。用非离子表面活性剂F127作为模板剂,正硅酸四乙酯和可溶性酚醛树脂分别作为无机和有机的前驱体,可溶性酚醛树脂,吹冰水硝酸锌和钛酸四正丁酯分别作为碳,锌和钛的来源物质。经过有机-无机协同作用并进一步在600 °C以上的高温处理,得到了有序介孔TiO2/SiO2/C复合材料,再分别除去碳骨架和二氧化硅模板,制备得到了介孔二氧化钛/氧化锌。通过改变这五种物质的摩尔来控制介孔的形成和比表面积,最终获得了高比表面积(大于300m2/g)的高结晶度介孔二氧化钛/氧化锌。用XRD, N2吸脱附图、扫描电镜SEM图来表征。37504
毕业论文关键词:介孔二氧化钛;氧化锌; CO催化氧化;金催化剂
Mesoporous titanium dioxide doped Zinc Oxide and research the catalytic oxidation of CO
Abstract:With titanium dioxide as carrier load in nano gold catalysts for CO oxidation has very high catalytic activity, but the catalyst will because of the high temperature sintering and inactivation, not readily pass through high temperature regeneration, and the catalytic stability is not high, therefore the impact of the industrial application of gold catalyst. In the high specific surface area of the mesoporous TiO2 doped with different transition metal oxides such as zinc oxide, by precipitation method of deposition can be gold nanoparticles highly dispersed to TiO2 pore and surface, thus increasing the gold catalyst at high temperature anti sintering ability, and increase the gold catalyst stability in the reaction. The mesoporous titania / zinc oxide loaded gold nanoparticles were prepared for catalytic oxidation of CO .The results were as follows:
In this thesis, the mesoporous titania / zinc oxide with high specific surface area and high crystallinity was prepared by evaporation induced self-assembly method (EISA).Non ionic surfactant F127 as template is tetraethyl orthosilicate (TEOS) and soluble phenolic resin respectively as inorganic and organic precursor, soluble phenolic resin, six water zinc nitrate and tetrabutyl titanate four n-butyl acetate was used as carbon, zinc and titanium material sources. After the organic - inorganic synergistic effect and further in more than 6000C high temperature treatment, the ordered mesoporous TiO2/SiO2/C composite, respectively to remove carbon skeleton and silica templates, prepared by the TiO2/Zn0. By changing the molar of the five substances to control the formation and specific surface area of the mesoporous, the high crystallinity TiO2/Zn0 with high specific surface area (greater than 300m2/g) was obtained.By XRD, N2 adsorption, scanning electron microscopy figure SEM graph representation.
Keywords: Mesoporous titanium dioxide; Zinc Oxide CO; catalytic oxidation; gold catalyst
目录
1绪论 3
1.1 研究背景及意义 3
1.2 二氧化钛 4
1.2.1二氧化钛的性质 4
1.2.2 二氧化钛的制备方法 5
1.3介孔材料 7
1.3.1介孔材料的合成 7
1.3.2 介孔材料的制备方法 8