Photocatalytic degradation of methylene blue from aqueous solutions using nanopillars-TiO2 thin films: Batch reactor studies

C. Lalhriatpuia
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引用次数: 3

Abstract

Nanopillars-TiO2 thin films was obtained on a borosilicate glass substrate with (S1) and without (S2) polyethylene glycol as template. The photocatalytic behaviour of S1 and S2 thin films was assessed inthe degradation of methylene blue (MB) dye from aqueous solution under batch reactor operations. The thin films were characterized by the SEM, XRD, FTIR and AFM analytical methods. BET specific surface area and pore sizes were also obtained. The XRD data confirmed that the TiO2 particles are in its anatase mineral phase. The SEM and AFM images indicated the catalyst is composed with nanosized pillars of TiO2, evenly distributed on the surface of the substrate. The BET specific surface area and pore sizes of S1 and S2 catalyst were found to be 5.217 and 1.420 m2/g and 7.77 and 4.16 nm respectively. The photocatalytic degradation of MB was well studied at wide range of physico-chemical parameters. The effect of solution pH (pH 4.0 to 10.0) and MB initial concentration (1.0 to 10.0 mg/L) was extensively studied and the effect of several interfering ions, i.e., cadmium nitrate, copper sulfate, zinc chloride, sodium chloride, sodium nitrate, sodium nitrite, glycine, oxalic acid and EDTA in the photocatalytic degradation of MB was demonstrated. The maximum percent removal of MB was observed at pH 8.0 beyond which it started decreasing and a low initial concentration of the pollutant highly favoured the photocatalytic degradation using thin films and the presence of several interfering ions diminished the photocatalytic activity of thin films to some extent. The overall photocatalytic activity was in the order: S2 > S1 > UV. The photocatalytic degradation of MB was followed the pseudo-first-order rate kinetics. The mineralization of MB was studied with total organic carbon measurement using the TOC (total organic carbon) analysis.
纳米柱- tio2薄膜光催化降解水溶液中的亚甲基蓝:间歇反应器研究
以(S1)和(S2)聚乙二醇为模板,在硼硅酸盐玻璃衬底上制备了纳米柱- tio2薄膜。在间歇反应器操作下,研究了S1和S2薄膜在降解亚甲基蓝(MB)染料中的光催化性能。采用SEM、XRD、FTIR和AFM等分析方法对薄膜进行了表征。得到了BET比表面积和孔径。XRD数据证实TiO2颗粒处于锐钛矿相。SEM和AFM分析表明,催化剂由TiO2纳米柱组成,均匀分布在衬底表面。S1和S2催化剂的BET比表面积和孔径分别为5.217和1.420 m2/g和7.77和4.16 nm。在较宽的理化参数范围内,对光催化降解MB进行了较好的研究。广泛研究了溶液pH (pH 4.0 ~ 10.0)和MB初始浓度(1.0 ~ 10.0 mg/L)对光催化降解MB的影响,并考察了硝酸镉、硫酸铜、氯化锌、氯化钠、硝酸钠、亚硝酸钠、甘氨酸、草酸和EDTA等干扰离子对光催化降解MB的影响。pH值为8.0时,MB去除率达到最大值,超过该值后MB去除率开始下降,较低的初始浓度有利于薄膜的光催化降解,一些干扰离子的存在在一定程度上降低了薄膜的光催化活性。总光催化活性顺序为:S2 > S1 > UV。光催化降解MB符合准一级速率动力学。用TOC (total organic carbon,总有机碳)法测定了MB的矿化。
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期刊介绍: Science & Technology Vision is a science and technology journal supervised by the Shanghai Association for Science and Technology and sponsored by the Shanghai Science Writers Association. It takes grassroots science and education workers as readers, popularizes scientific knowledge, tracks hot issues in science and technology at home and abroad, pays attention to new developments, new technologies, and new achievements in the forefront of the science and technology community, adheres to the combination of theory and practice, popularization and exploration, integrates scientificity, knowledge, academicity, and foresight, and builds a platform and theoretical position for academic debate for the majority of science and technology workers. Science & Technology Vision has been fully included in "China National Knowledge Infrastructure", "Chinese Science and Technology Journal (VIP) Database", "Longyuan Journal Network", "Education Reading Network", and "Wanfang Database".
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