采用恒压阳极氧化法在有机电解液(NH4F/甘油、NH4F/乙二醇)中制备TiO2纳米管阵列,研究了阳极氧化电压、时间、电解液成分对纳米管阵列形貌、生长过程的影响,并提出了有机电解液中TiO2纳米管阵列的生长机制.研究表明:有机电解液中,获得纳米管阵列的电压范围更为宽泛,纳米管的生长时间也更长;在不同含水量的有机电解液中,可以制备出形貌不同的纳米管阵列;有机溶剂的高粘度、低含氧量提高了纳米管生长速度的同时控制着纳米管的腐蚀速度,因此在有机电解液中可以制备更大长径比的TiO2纳米管阵列;乙二醇电解液中纳米管的生长速度大于甘油电解液,并可制各出64μm的TiO2纳米管阵列.
参考文献
| [1] | Zwilling V et al.[J].Surflnterface Anal,1999,27(07):629. |
| [2] | Gong D et al.[J].Journal of Materials Research,2001,16(12):3331. |
| [3] | Zhao JL;Wang XH;Chen RZ;Li LT .Fabrication of titanium oxide nanotube arrays by anodic oxidation[J].Solid State Communications,2005(10):705-710. |
| [4] | Lai YK;Sun L;Chen C;Nie CG;Zuo J;Lin CJ .Optical and electrical characterization of TiO2 nanotube arrays on titanium substrate[J].Applied Surface Science: A Journal Devoted to the Properties of Interfaces in Relation to the Synthesis and Behaviour of Materials,2005(4):1101-1106. |
| [5] | Cai Q Y et al.[J].Journal of Materials Research,2005,20(01):230. |
| [6] | Varghese O K et al.[J].Journal of Materials Research,2003,18(01):156. |
| [7] | Paulose M et al.[J].Journal of Physical Chemistry B,2006,110(33):16 179. |
| [8] | Shankar K et al.[J].Nanotechnology,2007,18(06):065 707. |
| [9] | Albu S P et al.[J].Physical Status Solidi,2007,1(02):R65. |
| [10] | Ruan C M et al.[J].J Phys Cheru B,2005,109(33):15 754. |
| [11] | Maeak J M et al.[J].Angewandte Chemie International Edition,2005,44(45):7463. |
| [12] | Macak J M et al.[J].Electrochimica Acta,2006,52(03):1258. |
| [13] | Tsochiya H et al.[J].Electrochimica Acta,2006,52(I):94. |
| [14] | Mot G K et al.[J].Journal of Materials Research,2003,18(11):2588. |
| [15] | Kat A et al.[J].Surface and Coatings Technology,2006,201(06):3723. |
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