|
1. Paola, A. D., Marci, G., Palmisano, L., Schiavello, M., Uosaki, K., Ikeda, S. and Ohtani, B., Journal of Physical Chemistry B, V.106, 637-645, 2002. 2. Gilma, G. O., Carlos, A. P., Fernando, M. O. and Edgar, A. P., Catalysis Today, V.107-108, 589-594, 2005. 3. Tennakone, K. and Bandara, J., Applied Catalysis A: General, V.208, 335-341, 2001. 4. Wang, C., Zhao, J., Wang, X., Mai, B., Sheng, G., Peng, P. and Fu, J., Applied Catalysis B: Environmental, V. 39, 269-279, 2002. 5. Falaras, P., Arabatzis, I. M., Stergiopoulos, T. and Bernard, M. C., International Journal of Photoenergy, V.5, 123-130, 2003. 6. Hu, C., Tang, Y., Jiang, Z., Hao, Z. P., Tang, H. and Wong, P. K., Applied Catalysis A : General, V.253, 389-396, 2003. 7. Dean, J. A., Lange's Handbook of Chemistry. McGraw-Hill, New York, 1973. 8. Linsebigler, A. L., Lu, G. and Yates Jr. J. T., Chemical Reviews, V.95, 735-758, 1995. 9. Okamoto, K. I., Yamamoto, Y., Tanaka, H., Hanaka, M. and Itaya, A., Bulltein of the Chemistry Society Japan., V.58, 2015-2022, 1985. 10. Lathasree, S., Rao, A. N., SivaSankar, B., Sadasivam, V. and Rengaraj, K., Journal of Molecular Catalysis A: Chemical, V.223, 101-105, 2004. 11. Rao, N. N., Dubey, A. K., Mohanty, S., Khare, P., Jain, R. and Kaul, S. N., Journal of Hazardous Materials, V.101, 301-314, 2003. 12. Assabane, A., Ichou, Y. A., Tahiri, H., Guillard, C. and Herrmann, J. M., Applied Catalysis B: Environmental, V.24, 71-87, 2000. 13. Hu, C., Yu, J. C., Hao, Z. and Wong, P. K., Applied Catalysis B: Environmental, V.42, 47-55, 2003. 14. Higarashi, M. M. and Jardim, W. F., Catalysis Today, V.76, 201-207, 2002. 15. Parra, S., Stanca, S. E., Guasaquillo, I. and Thampi, K. R., Applied Catalysis B: Environmental, V.51, 107-116, 2004. 16. Wen, S., Zhao, J., Sheng, G., Fu, J. and Peng, P., Chemosphere, V.50, 111-119, 2003. 17. Pal, B. and Sharon, M., Journal of Molecular Catalysis A: Chemical, V.160, 453-460, 2000. 18. Tlennakone, K. and Wijayantha, K. G. U, Journal of Photochemistry and Photohiology A: Chemistry, V.113, 89-92, 1998. 19. Chou, T. C. and Chen, L. C., Industrial and Engineering Chemistry Research, V.33, 1436-1443, 1994. 20. Aguado, M. A. and Anderson M. A., Solar Energy Materials and Solar Cells, V.28, 345-361, 1993. 21. Paola, A. D., Garcia-López, E., Ikeda, S., Ohtani, B. and Palmisano, L., Catalysis Today, V.75, 87-93, 2002. 22. Brezová, V., Blazková, A., Borosova, E., Ceppan, M. and Fiala, R., Journal of Molecular Catalysis A: Chemical, V.98, 109-116, 1995. 23. 高濂,鄭珊,張青紅,“奈米光觸媒”,第七章,台北,五南出版社。 24. Herrmann, J. M., Matos, J., Disdier, J., Guillard, C., Laine, J., Malato, S. and Blanco, J., Catalysis Today, V.54, 255-265, 1999. 25. Morawski, A. W., Tryba, B. and Inagaki, M., Applied Catalysis B: Environmental, V.41, 427-433, 2003. 26. Lee, S. C. and Ao, C. H., Journal of Photochemistry and Photobiology A: Chemistry, V.161, 131-140, 2004. 27. Friedlander, G., Wiley, J. and Press, S., “Nuclear and Radiochemistry,” New York, 8-9, 1981. 28. http://www.nmns.edu.tw/New/PubLib/NewsLetter/88/141/10.htm. 29. Thomsen, V. and Schatzlein, D., Spectroscopy, V.18, 18-21, 2003. 30. http://www.cre-ol.com/soft/zhishi/zhindex.htm. 31. Baoshun, L., Xiujian, Z., Naizhi, Z., Qingnan, Z., Xin, H. and Jingyang, F., Surface Science, V.595, 203-211, 2005. 32. Sakata, Y., Hirata, Y., Miyahara, K., Imamura, H. and Tsuchiya, S., Chemistry Letters, V. 22, 391-394, 1993. 33. 柴希娟,段良和「奈米鋅鈰氧化物的紫外光屏蔽與催化性能」,第五屆中國功能材料及其應用學術會議論文集,第35卷,第 2809-2812頁,中國,民國93年。 34. Beltran, J., Heredia, D., Torregrosa, J., Dominguez, J. R. and Peres, J. A., Journal of Hazardous Materials, V.83, 255-264, 2001. 35. Turchi, C. S. and Ollis, D. F., Journal of Catalysis, V.122, 178-192, 1990. 36. Peiró, A. M., Ayllón, J. A., Peral, J. and Doménech, X., Applied Catalysis B: Environmental, V.30, 359-373, 2001. 37. Wang, K. H., Hsieh, Y. H. and Chen, L. J., Journal of Hazardous Materials, V.59, 251-260, 1998. 38. Wang, K. H., Hsieh, Y. H., Chou, M. Y. and Chang, C. Y.,Applied Catalysis B: Environmental, V.21, 1-8, 1999. 39. Akbal, F. and Onar, A. N., Environ Monit Assess, V.83, 295-302, 2003. 40. D’Oliveira, J.C., Ghassan, A. S. and Pichat, P., Environmental Science and Technology, V.24, 990-996, 1990. 41. 陳重男、杜玫芬、盧明俊,「安丹在二氧化鈦懸浮溶液中之催化光分解反應」,第二十屆廢水處理技術研討會論文集,第6-77~6-83頁,台北,民國84年11月。 42. Brezová, V., Blazková, A., Karpinský, L., Grosková, J., Havlínová, B., Jorík, V. and Ceppan, M., Journal of Photochemistry and Photobiology A: Chemistry, V.109, 177-183, 1997. 43. Sobczyński, A., Duczmal, Ł. and Zmudziński, W., Journal of Molecular Catalysis A: Chemical, V.213, 225-230, 2004. 44. Bhatkhande, D. S., Kamble, S. P., Sawant, S. B. and Pangarkar, V. G., Chemical Engineering Journal, V.102, 283-290, 2004. 45. Xia, B., Huang, H. and Xie, Y., Materials Science and Engineering: B, V.57, 150-154, 1999. 46. Liu, S. X., Qu, Z. P., Han, X. W. and Sun, C. L., Catalysis Today, V.93-95, 877-884, 2004. 47. Jang, S. J., Kim, M. S. and Kim, B. W., Water Research, V.39, 2178-2188, 2005. 48. Sakata, T. and T. Kawai, Modern Ceramic Engineering, Marcel Dekker Inc, New York, 223, 1983. 49. Serpone, N., Maruthamuthu, P., Pichat, P., Pelizzetti, E. and Hidaka, H., Journal of Photochemistry and Photobiology A: Chemistry, V.85, 247-255, 1995.
|