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pH对离子液体辅助水热制备介孔二氧化钛结构的影响 被引量:7

Effects of pH on the Structure of Titania Prepared via Ionic Liquid-assisted Hydrothermal Method
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摘要 以钛酸四丁酯为钛源,离子液体1-丁基-3-甲基咪唑四氟化硼([c4MIM]BF4)为辅助剂,采用水热法制备了锐钛矿相的介孔二氧化钛。用盐酸和氨水调节反应前驱体的pH,考察了pH在1~11变化范围内对离子液体一水制备二氧化钛体系的影响。采用X射线衍射和Nz吸附一脱附对样品的晶相和孔结构进行表征。结果表明:离子液体抑制了板钛矿二氧化钛的形成,随着pH的增大样品的晶化程度增强。pH在1~9较大范围变化时,其孔径分布较窄,平均孔径随pH增大由6.6nm减小到5.0nm,此时离子液体能较好的将样品粒径控制在9nm左右。这与透射电镜分析结果相一致。 The mesoporous anatase TiO2 material was prepared by ionic liquid-assisted hydrothermal method using tetrabutyl titanate as titanium source and ionic liquid 1-butyl-3-methylimida-zolium tetrafluoroborate ([C4MIM]BF4) as template. The pH values of the starting suspensions were adjusted from 1 to 11 using HC1 or NH3"H20 solution. The influence ofpH on the ionic liquid-water system for the preparation of titanium dioxide was investigated. The obtained TiO2 samples were characterized with X-ray diffraction (XRD) and N2 adsorption-desorption measure- ments, respectively. The results showed that the addition of ionic liquid inhibited the formation of the brookite TiO2, and increasing pH values enhanced the crystallization. When the pH was changed at a wide range (pH=1-9), the pore size distributions of the samples were relatively narrow, and the average pore diameter was reduced from 6.6 nm to 5.0 nm by increasing pH value. At the same time, the average size of the TiO2 nanoparticles in the samples was controlled at about 9 nm by using ionic liquid-assisted hydrothermal method. This is consistent with the results of the transmission electron microscopy (TEM) analyses.
作者 王凯 张丽娟 徐志坚 亓滨 底兰波 张秀玲
机构地区 大连大学物理科学与技术学院 大连大学辽宁省生物有机化学重点实验室
出处 《无机材料学报》 SCIE EI CAS CSCD 北大核心 2014年第2期131-136,共6页 Journal of Inorganic Materials
基金 国家自然科学基金(21173028) 辽宁省高等学校优秀科技人才支持计划(LR2012042)~~
关键词 水热法 离子液体 PH 介孔二氧化钛 hydrothermal method ionic liquid pH mesoporous titania
分类号 O649 [理学—物理化学]
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参考文献14

  • 1Crossland E J W, Noel N, SivaramV, et al. Mesoporous TiO2 single crystals delivering enhanced mobility and optoelectronic device performance. Nature, 2013,495:215-219.
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无机材料学报
2014年 第2期

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