模拟植物光合系统的BiFeO3/AgI/CNTs复合体对有害藻类的杀灭效应
关键词:凝胶-溶胶法;BiFeO3;CNTs;光催化剂;水绵
The Killing Effect of BiFeO3/AgI/CNTs Complex Simulation of Plant Photosynthetic System on Harmful Algae
Abstract: BiFeO3 photocatalysts were prepared by gel-sol method,then AgI and BiFeO3 further preparation of BiFeO3/AgI/CNTs complex. The structure and morphology of as-prepared samples were characterized with the techniques of X-ray diffraction (XRD), scanning electron microscope (SEM). Using spirogyra as the experimental material,BiFeO3 was used as the comparison, the effect of BiFeO3/AgI/CNTs complex on apirogyra removel was investigated through the change of morphology and physiological-biochemical index before and after photocatalytic reaction. The results showed that the BiFeO3/AgI/CNTs complex can inhibit the growth of spirogyra effectively. When the irradiation time reach to 12 hours in the visible light, the spirogyra cell was damaged, chlorophyll content and soluble protein content decreased, as well as MDA content increased.
Key words: Gel-sol method;BiFeO3;CNTs; Photocatalyst; Spirogyra
目 录
摘要 1
关键词 1
Abstract 1
Key words 1
引言 1
1.实验部分 2
1.1 样品的制备和表征 2
1.1.1 样品的制备 2
1.1.2 样品的表征 2
1.2 试剂和仪器 3
1.2.1 实验材料 3
1.2.2 主要的仪器和设备 3
1.3 实验方法 4
1.3.1 水绵的培养 4
1.3.2BiFeO3和BiFeO3/AgI/CNTs复合体对水绵生长影响的实验设计 4
2.结果与分析 4
2.1 制备样品的X-射线衍射分析 4
2.2 制备样品的电镜分析 5
2.3 制备的BiFeO3和BiFeO3/AgI/CNTs复合体对水绵生长影响的分析 5
2.3.1 光催化剂对水绵表观的影响分析 5
2.2.2 光催化剂对水绵叶绿素a含量的影响分析 6
2.2.3 光催化剂对水绵丙二醛(MDA)含量的影响分析 7
2.2.4 光催化剂对水绵蛋白含量的影响分析 8
3.结论与讨论 8
参考文献 11
致谢 13
模拟植物光合系统的BiFeO3/AgI/CNTs复合体对有害藻类的杀灭效应引言
半导体光催化技术可以在环境温度的情况下,直接利用太阳光作为激发光源来驱动氧化-还原反应,把各种有机物矿化分解为水、二氧化碳和无毒有机酸。与常规水处理工艺相比,半导体光催化技术具有降解速度快、应用范围广、能源耗低等特点,是一项具有广阔应用前景的技术[1]。BiFeO3具有生物惰性、强氧化能力、无毒和无光腐蚀等特点,在可见光下对难降解有机物具有良好降解能力,将它用于环境污染物的处理成为近年来国内外研究的热点之一。
BiFeO3是少数室温下同时具有铁电性和铁磁性的材料之一,室温下呈反铁磁有序和铁电有序。由于在BiFeO3薄膜中可以检测到很大的剩余极化强度,BiFeO3成为无铅铁电材料的重要候选材料之一而受到广泛的关注[2-4]。
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