Citation: GAO Guan-Dao, LI Jing, ZHANG Ai-Yong, AN Xiao-Hong, ZHOU Lei. Optimizational Preparation and Mesoporous Material Characteristics of a Novel Biomimetic Photocatalyst and Its Application to the Photocatalytic Degradation of Phenol[J]. Acta Physico-Chimica Sinica, ;2010, 26(09): 2437-2442. doi: 10.3866/PKU.WHXB20100910 shu

Optimizational Preparation and Mesoporous Material Characteristics of a Novel Biomimetic Photocatalyst and Its Application to the Photocatalytic Degradation of Phenol

  • Received Date: 1 February 2010
    Available Online: 13 July 2010

    Fund Project: 国家自然科学基金项目(20803036) (20803036)科技人员服务企业行动(2009GJA10014) (2009GJA10014)水体污染控制与治理科技重大专项(2008ZX07314-003-2)基金资助 (2008ZX07314-003-2)

  • Hexa nal mesoporous silica (HMS) was synthesized using dodecylamine (DDA) or octadecylamine (ODA) as templates which were then removed by calcination or extraction. Characterization data of HMS from XRD and N2 adsorption-desorption proved that the optimized material were typical mesoporous materials based on the facts that the XRDdiffraction peak displayed apparently the feature of mesoporous materials and the N2 adsorption-desorption curve was typical of a type IV isothermand contained a type H1 desorption hysteresis loop. These novel photocatalysts had a BET surface area of 675.1 m2·g-1, an average pore diameter of 5.78 nm and a BJH pore volume of 0.587 cm3·g-1, and were prepared by the F—C reaction between functionalized HMS and iron sulfophthalocyanine (FePcS). Additionally, the catalysts preserved an undamaged heavy mesoporous structure. Upon the irradiation of the simulated visible light, these novel catalysts were applied to the degradation of simulated phenol wastewater at a concentration of 1000 mg·L-1. The conversion of phenol reached 85%and the pH decreased from the original 4.52 to 2.65 after reaction time of 400 min, which indicated that acid intermediates were produced during the photocatalysis of phenol. Finally, the conversion rate of phenol was nearly 100% and the total organic carbon (TOC) removal rate exceeded 81%. The novel catalyst is, therefore, highly effective for the degradation of phenol.

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    1. [1]

      1. Sorokin, A.; Seris, J. L.; Meunier, B. Science, 1995, 268: 1163

    2. [2]

      2. Sorokin, A.; Meunier, B. Chemistry-A European Journal, 1996, 2 (10): 1308

    3. [3]

      3. Hadasch, A.; Sorokin, A.; Rabion, A.; Meunier, B. New Journal of Chemistry, 1998, 22(1): 45

    4. [4]

      4. Sorokin, A.; Meunier, B. European Journal of Inorganic Chemistry, 1998, (9): 1269

    5. [5]

      5. Hadasch, A.; Meunier, B. European Journal of Inorganic Chemistry, 1999, (12): 2319

    6. [6]

      6. Hequet, V.; Le Cloirec, P.; nzalez, C.; Meunier, B. Chemosphere, 2000, 41(3): 379

    7. [7]

      7. Tao, X. Study on photochemical degradation of organic pollutants and related reaction mechanism[D]. Beijing: Institute of Chemistry, Chinese Academy of Sciences, 2002 [陶霞. 有毒有机污染物 光催化降解及机理研究[D].北京:中国科学院化学研究所, 2002]

    8. [8]

      8. Hu, M. Q.; Xu, Y. M.; Zhao, J. C. Langmuir, 2004, 20(15): 6302

    9. [9]

      9. Liu, M.; Han, D. Z.; Deng, K. J.; Wang, D. Y. Chin J Catal., 2004, 25(10): 834 [刘敏,韩端壮, 邓克俭,王夺元.催化学报, 2004, 25(10): 834]

    10. [10]

      10. Wu, L.; Li, A. M.; Gao, G. D.; Fei, Z. H.; Xu, S. R.; Zhang, Q. X. J. Mol. Catal. A, 2007, 269(1-2): 183

    11. [11]

      11. Chen, W. X.; Chen, S. L.; Lü, S. S.; Yao, Y. Y.; Xu, M. H. Science in China S-ries BüChemistry, 2007, 37(4): 369 [陈文兴, 陈世良,吕慎水,姚玉元, 徐敏虹.中国科学B辑:化学, 2007, 37 (4): 369]

    12. [12]

      12. Xiong, Z. G.; Xu, Y. M.; Zhu, L. Z.; Zhao, J. C. Langmuir, 2005, 21(23): 10602

    13. [13]

      13. Xiong, Z. G.; Xu, Y. M.; Zhu, L. Z.; Zhao, J. C. Environ. Sci. Technol., 2005, 39(2): 651

    14. [14]

      14. Tao, X.; Ma, W. H.; Li, J.; Huang, Y. P.; Zhao, J. C.; Yu, J. C. Chemical Communications, 2003, (1): 80

    15. [15]

      15. Gao, G. D.; Chen, J. L.; Zheng, S. R.; Fei, Z. H.; Liu, F. Q.; Li, A. M.; Lu, X. G.; Zhang, Q. X. Chin. J. Catal., 2005, 26(7): 545 [高 冠道,陈金龙,郑寿荣, 费正皓,刘福强,李爱民, 鲁秀国, 张全兴. 催化学报, 2005, 26(7): 545]

    16. [16]

      16. Gao, G. D.; Chen, J. L.; Fei, Z. H.; Li, A. M.; Lu, J. D.; Long, C.; Zhang, Q. X. Acta Polym. Sin., 2006, (1) : 113 [高冠道,陈金龙, 费正皓,李爱民, 鲁俊东,龙超,张全兴.高分子学报, 2006, (1): 113]

    17. [17]

      17. Gao, G. D.; Zhang, A. Y.; Zhang, M.; Chen, J. L.; Zhang, Q. X. Chin. J. Catal., 2008, 29(5): 426 [高冠道, 张爱勇,张萌, 陈金龙,张全兴.催化学报, 2008, 29(5): 426

    18. [18]

      18. Gao, G. D.; Zhang, A. Y.; Zhang, M.; Chen, J. L.; Zhang, Q. X. Chin. J. Catal., 2008, 29(4): 397 [高冠道, 张爱勇,张萌,陈 金龙,张全兴.催化学报, 2008, 29(4): 397]

    19. [19]

      19. Tanev, P. T.; Pinnavaia, J. J. Science, 1995, 267: 865

    20. [20]

      20. Xu, R. R.; Pang, W. Q. Chemistry of zeolites and porous materials. Beijing: Science Press, 2004: 145 [徐如人, 庞文琴.分子筛与多 孔材料化学.北京:科学出版社, 2004: 145]

    21. [21]

      21. Liu, L.; Liu, H. J.; Zhao, Y. P.; Wang, Y. Q.; Duan, Y. Q.; Gao, G. D.; Ge, M.; Chen, W. Environ. Sci. Technol., 2008, 42(7): 2342

    22. [22]

      22. Tao, X.; Ma, W. H.; Zhang, T. Y.; Zhao, J. C. Chemistry-A European Journal, 2002, 8(6): 1321


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