以钼酸铵和钛酸丁酯为原料,用溶胶-凝胶法在活性炭(AC)表面制备了Mo掺杂TiO2/AC负载膜. 用紫外可见吸收光谱、透射电镜和X射线衍射法对负载膜进行了表征. 考察了Mo掺杂TiO2/AC负载膜对甲基橙和氧化乐果水溶液的光催化降解活性. 结果表明,Mo掺杂TiO2/AC负载膜的TiO2为锐钛矿和金红石的混合晶相,而未掺杂的TiO2/AC负载膜其TiO2为金红石晶相. Mo掺杂使TiO2/AC负载膜的吸收带边位置发生红移. Mo质量分数为1.5%时(以TiO2质量计),负载膜的光催化活性最高.
参考文献
| [1] | Honda K,Fujishima A. Nature[J],1972,37:238 |
| [2] | ZHAO Xiu-Feng(赵秀峰),SUN Xiao-Dong(孙晓冬),ZHANG Gui-Bin(张贵彬), et al. Chin J Appl Chem(应用化学)[J],1998,15(4):25 |
| [3] | HUANG Hui-Li(黄惠莉),HUANG Miao-Liang(黄妙良),CAI A-Na (蔡阿娜), et al. Chin J Appl Chem(应用化学)[J],2002,19(1):48 |
| [4] | Paz Y,Heller A. J Mater Res[J],1997,12:2 759 |
| [5] | Sunada K,Kikuchi Y,Hashimoto K, et al. Environ Sci Tech[J],1998,32(5):756 |
| [6] | QIU Jian-Bin(邱健斌),CAO Ya-An(曹亚安),MA Ying(马颖). Acta Phys-Chem Sin(物理化学学报)[J],2000,16(1):1 |
| [7] | Yu J C,Yu J,Ho W, et al. Chem Mater[J],2002,14:3 808 |
| [8] | WANG Yi-Zhong(王怡中),FU Yan(符雁),TANG Hong-Xiao(汤鸿宵), et al. Environ Sci(环境科学)[J],1998,19(1):1 |
| [9] | Yu J,Zhao X,Zhao Q. J Mater Sci Lett[J],2000,19:1 015 |
| [10] | CHENG Ying-Zhi(成英之),ZHANG Yuan-Ming(张渊明),TANG Yu(唐渝). Chin J Catal(催化学报)[J],2001,22(2):203 |
| [11] | Pines H,Manassen J. Adv Catal[J],1966,19:49 |
| [12] | SU Wen-Yue(苏文悦),CHEN Yi-Lin(陈亦琳),FU Xian-Zhi(付贤智), et al. Chin J Catal(催化学报)[J],2001,22(2):175 |
| [13] | SUN Feng-Yu(孙奉玉),WU Ming(吴鸣),LI Wen-Zhao(李文钊), et al. Chin J Catal(催化学报),1998,19(3):229 |
| [14] | Morrison Roy S Auth(著). ZHAO Bi-Ying (赵璧英),LIU Ying-Jun (刘英俊),PU Nai-Yu(卜乃瑜) Trans (译). XIE You-Chang(谢有畅) Proof (校). The Chemical Physics of Surface(表面化学物理)[M]. Beijing(北京):Beijing University Press(北京大学出版社),1984:326 |
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