| [1] | Acero J. L., Benitez F. J., Real F. J., et al. Degradation of phydroxyphenylacetic acid by photo assisted Fenton reaction. Water Sci. and Technol., 2001, 44(5):31-38 |
| [2] | Ince N. H., Tezcanli G. Treatability of textile dye-bath effluents by advanced oxidation: Preparation for reuse. Water Sci. and Technol., 1999, 40(1):183-190 |
| [3] | Feng J. Y., Hu X. J., Yue P. L. Effect of initial solution pH on the degradation of OrangeⅡ using clay-based Fe nanocomposites as heterogeneous photo-Fenton catalyst. Water Res., 2006, 40(4):641-646 |
| [4] | Glaze W. H., Kang J. W. The chemistry of water treatment processes involving ozone, hudrogen peroxide and ultraviolet radiation. Ozone Sci. Eng., 1987, 9(4):335-352 |
| [5] | Jin A., Nacorn P., Nonglak B., et al. Verification of competitive kinetics technique and oxidation kinetics of 2, 6-dimethyl-aniline and О-toluidine by Fenton process. J. Hazard. Mater., 2011, 188 (1-3):269-273 |
| [6] | Hrvoje K., Natalija K., Iva S. Fe-exchanged zeolite as the effective heterogeneous Fenton-type catalyst for the organic pollutant minimization: UV irradiation pollutant assiatance. Chemosphere, 2006, 65(1):65-73 |
| [7] | Rodríguez E. M., Fernández G., álvarez P. M., et al. Photocatalytic degradation of organics in water in the presence of iron oxides: Effects of pH and light source. Appl. Catal. B: Environ., 2011, 102(3-4):572-583 |
| [8] | Ju Y. M., Fang J. D., Liu X. W., et al. Photodegradation of crystal violet in TiO2 suspensions using UV-Vis irradiation from two microwave-powered electrodeless discharge lamps(EDL_2): Products; mechanism and feasibility. J. Hazard. Mater., 2011, 185(2-3): 1489-1498 |
| [9] | Han Z. B., Dong Y. C., Dong S. M. Copper iron bimetal modified PAN fiber complexes as novel heterogeneous Fenton catalysts for degradation of organic dye under visible light irradiation. J. Hazard. Mater., 2011, 189(1-2):241-248 |
| [10] | Wang Q., Tian S. L., Cun J., et al. Degradation of methylene Blue using a heterogeneous Fenton process catalyzed by ferrocene, Desalin. Water Treat., 2013, 51(28-30):5821-5830 |
| [11] | 胡乔生, 王建国, 范小林, 等. 二茂铁及其衍生物的应用与研究进展. 江西化工, 2007, (2): 8-11 Hu Q. S., Wang J.G., Fan X. L., et al. Applications and development of ferrocene and its derivatives. Jiangxi Chem., 2007, (2):8-11(in Chinese) |
| [12] | Minero C., Lucchiari M., Vione D., et al. Fe(Ⅲ)-enhanced sonochemical degradation of methylene blue in aqueous solution. Environ. Sci. & Technol., 2005, 39(22):8936-8942 |
| [13] | Kolthof I. M., Sandell E. B., Meehan E. J., et al. Quantitative Chemical Analysis, 4th Edition. New York: Macmillan Pub. Co., 1969 |
| [14] | Jiang R., Di X. W., He Z. X. Dtermination of ferrocene by spectrophotometric titration. Metallurgical Analysis, 2006, 26(4):59-61 |
| [15] | 吴少林, 谢四才, 杨莉, 等. 几种光催化反应体系中羟基自由基表观生成率的实验研究. 感光科学与光化学, 2006, 24(2):102-105 Wu S. L., Xie S. C., Yang L., et al. An experimental study on the production efficiency of hydroxyl radicals by several photocatalysis reaction systems. Photographic Sci. Photochem., 2006, 24(2):102-105(in Chinese) |
| [16] | Saquib M., Muneer M. Titanium dioxide mediated photocatalyzed degradation of a textile dye derivative, acid orange 8, in aqueous suspensions. Desalination, 2003, 155(3):255-263 |