钛酸铋的制备和应用研究毕业论文
2022-02-14 19:52:49
论文总字数:20012字
摘 要
由于经济的发展,环境问题越来越突出。工业废水未经处理而直接排放严重加剧了环境的污染。人们一直寻求能够有效降解工业废水中的污染物的方法,而且已经取得了很大的研究进展。TiO2可以在紫外光下催化降解有机污染物,但是由于太阳光中紫外光的含量很少,所以限制了它的应用。钛酸铋作为新型半导体光催化材料,在可见光下具有光催化活性。已有研究表明,钛酸铋通过一些物质的修饰,可以显著提高其光催化活性。
本论文首先采用共沉淀法制备Bi4Ti3O12,然后使其与AgNO3和KCl反应得到AgCl修饰的Bi4Ti3O12,再进行光还原得到Ag-AgCl修饰的Bi4Ti3O12复合材料。接下来研究Ag-AgCl- Bi4Ti3O12复合材料在300 W氙灯照射下对甲基橙、亚甲蓝和孔雀绿三种染料的降解情况。最后研究了Bi4Ti3O12、Ag-AgCl以及Ag-AgCl- Bi4Ti3O12三种催化剂在相同条件下对甲基橙溶液的降解情况。
实验结果表明,Ag-AgCl- Bi4Ti3O12复合材料对三种染料的降解效果都非常好;Ag-AgCl- Bi4Ti3O12催化剂对甲基橙的降解效率显著高于Bi4Ti3O12和Ag-AgCl两种催化剂。
关键词:钛酸铋 光催化 降解 甲基橙 亚甲蓝 孔雀绿
Study on the degradation of dyestuff by Ag-AgCl modified Bi4Ti3O12 under visible light
Abstract
As a result of economic development, environmental problems are becoming more and more prominent. Industrial waste water is discharged directly without treatment, which aggravates the pollution of the environment. People have been seeking ways to effectively degrade pollutants in industrial wastewater, and great progress has been made. TiO2 can degrade organic pollutants under UV light, but its application is limited due to its low content of UV light. Bismuth titanate, as a new type of semiconductor photocatalysis material, has photocatalytic activity under visible light. It has been shown that the photocatalytic activity of bismuth titanate can be greatly improved by the modification of some materials.
In this thesis, Bi4Ti3O12 was prepared by coprecipitation method, and then reacted with AgNO3 and KCl to obtain AgCl modified Bi4Ti3O12. Then, the Ag-AgCl modified Bi4Ti3O12 composite was obtained by photoreduction.Next,it has been studyed that Ag-AgCl- Bi4Ti3O12 composite degrades methyl orange, methylene blue and malachite green three dyes under 300 W xenon lamp irradiation. Finally, the degradation of methyl orange solution under the same conditions was investigated for three kinds of catalysts, Bi4Ti3O12, Ag-AgCl and Ag-AgCl- Bi4Ti3O12.
The experimental results show that the degradation of three kinds of dyes by Ag-AgCl- and Bi4Ti3O12 composites is very good.And the degradation efficiency of Ag-AgCl- and Bi4Ti3O12 catalysts on methyl orange was significantly higher than that of Bi4Ti3O12 and Ag-AgCl two catalysts.
Keywords: Bismuth titanate; Photocatalysis; degradation; Methyl orange;
Methylene blue; Malachite green
目录
摘要 I
Abstract II
目录 III
第一章 文献综述 1
1.1前言 1
1.2 光催化剂的发展历史 1
1.3 钛酸铋系化合物的分类 2
1.4 Bi4Ti3O12的制备方法 2
1.4.1 共沉淀法制备Bi4Ti3O12[17-19] 2
1.4.2水热法制备Bi4Ti3O12 [20-22] 3
1.4.3 熔盐法制备Bi4Ti3O12 3
1.4.4 溶胶-凝胶法制备Bi4Ti3O12[27,28] 3
1.5 Bi4Ti3O12复合材料的制备以及结构、性能的表征 4
1.6 本次论文研究的目的及意义 4
第二章 Ag-AgCl修饰Bi4Ti3O12催化剂的制备以及表征 5
2.1 前言 5
2.2 实验试剂与实验器材 5
2.3 实验内容 6
2.3.1 Bi4Ti3O12的制备 6
2.3.2 Ag-AgCl- Bi4Ti3O12的制备 6
2.3.3 制备材料的表征 7
2.4 实验结果分析 8
2.4.1 电镜结果分析 8
2.4.2 X射线衍射结果分析 9
2.4.3 红外光谱分析 10
第三章 Ag-AgCl修饰Bi4Ti3O12催化剂的光催化研究 12
3.1 前言 12
3.2 实验试剂与实验器材 12
3.3 实验中不同染料的简介 13
3.3.1 甲基橙染料 13
3.3.2 亚甲蓝染料 13
3.3.3 孔雀绿染料 14
3.4 实验内容 14
3.4.1 Ag-AgCl- Bi4Ti3O12催化剂降解三种染料 14
3.4.2 Bi4Ti3O12、Ag-AgCl和Ag-AgCl- Bi4Ti3O12三种催化剂对甲基橙的光催化降解研究 15
3.5 Ag-AgCl- Bi4Ti3O12催化剂的光降解活性讨论 16
3.5.1 Ag-AgCl- Bi4Ti3O12催化剂降解甲基橙溶液 16
3.5.2 Ag-AgCl- Bi4Ti3O12催化剂降解亚甲蓝溶液 16
3.5.3 Ag-AgCl- Bi4Ti3O12催化剂降解孔雀绿溶液 18
3.5.4 不同材料对甲基橙染料的光催化研究 19
3.5.5 Ag-AgCl- Bi4Ti3O12复合材料的光催化机理 20
第四章 结论与展望 21
4.1 结论 21
4.2 展望 21
参考文献 23
致谢 26
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