采用声电化学阳极氧化法,以H3PO4/NaF水溶液为电解液,在20V直流电压下氧化钛箔制得TiO2纳米管阵列,其管径约为100nm,壁厚15~20mn,管长随氧化时间的增长先增加后减小.所制TiO2纳米管阵列电极在空气中经500℃煅烧后,以高压汞灯为光源,测得其光电压和平均光电流密度随制备样品的氧化时间的增长而减小,且光电压降低程度要小于平均光电流密度降低的程度.通过伏安曲线和Mott-Schottky图分析还可知,所制样品的电荷转移能力和电荷载流子密度随阳极氧化时间的增长而减小.这是由于以H3PO4/NaF水溶液为电解液,超声场长时间加速传质过程的同时会引起管状结构的断裂和部分脱落,从而使得电荷转移阻力增大而影响了光生电荷的传输.
参考文献
[1] | 李贺,姚素薇,张卫国,等(LI He,et al).二氧化钛纳米管阵列电极的光电化学性能研究.稀有金属材料与工程(Rare Metal Mat.Eng.),2007,36(10):1749-1753. |
[2] | Paulose M,Mor G K,Varghese O K,et al.Visible light photoelectrochemical and water-photoelectrolysis properties of titania nanotube arrays.Journal of Photochemistry and Photobiology A:Chemistry,2006,178(1):8-15. |
[3] | Mor G K,Shankar K,Paulose M,et al.Use of highly-ordered TiO2 nanotube arrays in dye-sensitized solar cells.Nano Lett.,2006,6(2):215-218. |
[4] | Quan X,Yang S G,Ruan X L,et al.Preparation of titania nano-tubes and their environmental applications as electrode.Environ.Sci.Technol,2005,39(10):3770-3775. |
[5] | Varghese O K,Gong D W,Paulose M,et al.Extreme changes in the electrical resistance of titania nanotubes with hydrogen exposure.Adv.Mater.,2003,15(7/8):624-627. |
[6] | Gong D,Grimes C A,Varghese OK,et al.Titanium oxide nanotube arrays prepared by anodic oxidation.J.Mater.Res.,2001,16(12):3331-3335. |
[7] | 李晓红,张校刚,力虎林(LI Xiao-Hong,et al).TiO2纳米管的模板法制备及表征.高等学校化学学报(Chem.J.Chinese U.),2001,22(1):130-132. |
[8] | 马玉涛,林原,肖绪瑞,等.TiO2纳米管簿膜的制备及其光散射性能.科学通报,2005,50(17):1824-1828. |
[9] | 管东升,方海涛,逯好峰,等.阳极氧化TiO2纳米管阵列的制备与掺杂.化工进展,2008,20(12):1868-1879. |
[10] | Zhuang H F,Lin C J,Lai Y K,et al.Some critical structure factors of tiatnium oxide nanotube array in its photocatalytic activity.Environ.Sci.Technol,2007,41(13):4735-4740. |
[11] | Mahajan V K,Mohapatra S K,Misra M.Stability of TiO2 nanotube arrays in photoelectrochemical studies.International Journal of Hydrogen Energy,2008,33(20):5369-5374. |
[12] | 吴聪聪,卓燕君,朱沛宁,等(WU Cong-Cong,et al).高长径比TiO2纳米管阵列的调控制备及其光阳极性能.无机材料学报(Journal of Inorganic Materials),2009,2403:897-901. |
[13] | Mohapatra S K,Misra M,Mahajan VK,et al.A novel method for the synthesis of titania nanotubes using sonoelectrochemical method and its application for photoelectrochemical splitting of water.Journal of Catalysis,2007,246(2):362-369. |
[14] | Liu Y B,Zhou B X,Li J H,et al.Preparation of short,robust and highly ordered TiO2 nanotube arrays and their applications as electrode.Applied Catalysis B:Environmental,2009,92(3/4):326-332. |
[15] | Mor G K,Varghese O K,Paulose M,et al.Fabrication of tapered,conicalshaped titania nanotubes.J.Mater.Res.,2003,18(11):2588-2593. |
[16] | Allam N K,Grimes C A.Effect of rapid infrared annealing on the photoelectrochemical properties of anodically fabricated TiO2 nanotube arrays.Journal of Physical Chemistry Letters,2009,113(19):7996-7999. |
[17] | Mor G K,Varghese O K,Paulose M,et al.A review on highly ordered,vertically orented TiO2 nanotube arrays:fabrication,material properties,and solar energy applications.Solar Energy Materials& Solar Cells,2006,90(14):2011-2075. |
[18] | John S E,Mohapatra S K,Misra M.Double-wall anodic titania nanotube arrays for water photooxidation.Langmuir,2009,25(14):8240-8247. |
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