English
往期目录
新闻公告
More
化学进展 2009, Vol. 21 Issue (12): 2492-2504 前一篇   后一篇

• 综述与评论 •

提高TiO2可见光催化性能的改性方法

盛国栋1,李家星1,王所伟1,2,王祥科1*   

  1. (1. 中国科学院等离子体物理研究所 合肥 230031; 2. 山东理工大学化学工程学院 淄博 255049)
  • 收稿日期:2008-11-28 修回日期:2008-12-30 出版日期:2009-12-24 发布日期:2009-12-01
  • 通讯作者: 王祥科 E-mail:xkwang@ipp.ac.cn
  • 基金资助:

    973项目;国家自然科学基金

下载PDF ( 3913 ) 引用
导出

Modification to Promote Visible-Light Catalytic Activity of TiO2

Sheng Guodong1; Li Jiaxing1; Wang Suowei1,2; Wang Xiangke1*   

  1. (1. Institute of Plasma Physics, Chinese Academy of Sciences, Hefei 230031, China;2. School of Chemical Engineering, Shandong University of Technology, Zibo 255049, China)
  • Received:2008-11-28 Revised:2008-12-30 Online:2009-12-24 Published:2009-12-01
  • Contact: Wang Xiangke E-mail:xkwang@ipp.ac.cn

TiO2光催化技术作为一种环境友好的污染治理技术,在废水废气净化、抗菌环保等领域有着广泛的应用前景。阻碍其应用的是它的大禁带宽度(E=3.2eV),不能有效地利用太阳能,因此研究开发可见光响应的TiO2就成为当前光催化剂研究的关键课题。目前,国内外关于TiO2光催化剂的改性技术日益完善,且日趋多样化。本文简单回顾了TiO2光催化的发展历程及其反应机理,概述了提高TiO2光催化性能的改性技术,主要包括金属离子掺杂、表面贵金属沉积、半导体复合、非金属掺杂以及金属络合物和染料光敏化等方法,可以将只能由紫外光激发的TiO2光催化反应红移到可见光区域进行。针对各种改性方法列举了国内外应用的具体实例,提出TiO2的改性是提高光催化反应效率的关键。同时,对TiO2光催化技术目前存在的问题和发展前景做了简单的总结和展望。

关键词: TiO2, 光催化, 掺杂, 光敏化

As an environmentally friendly pollution management technology, TiO2 photocatalytic technique has a great potential for application as catalysts in the purification of waste water and exhaust gas, the sterilization and environment protection. However, its large energy band gap limits the practical application in the case of natural solar light. The development of visible light responsive TiO2 is one of the most important subjects of the research. The domestic and foreign modifications of TiO2 photocatalysts have improved steadily and diversely. In this paper, the development and mechanism of TiO2 photocatalysis are reviewed. The methods for promoting the visible light photocatalytic activity of TiO2 including metal doping, surface deposition of precious metals, semiconductor coupling, nonmetal doping, metal complex and dye sensitizing are discussed, all of which can allow for a UV-light activated photocatalytic reaction under visible light. In addition, some examples are cited, which indicate that the highlight for improving the photocatalytic efficiency is the modification of TiO2. Finally, the prospects and existing problems of TiO2 photocatalysis technology are also addressed.

Contents
1 Introduction
2 Mechanism of TiO2 photocatalysis
3 Methods for promoting the visible light photocatalytic activity of TiO2
3.1 Metal doping
3.2 Surface deposition of precious metals
3.3 Semiconductor coupling
3.4 Nonmetal doping
3.5 TiO2 Photosensitize
4 Prospects

Key words: TiO2, photocatalysis, doping modification, photosensitize

中图分类号: 

()

[ 1 ]  Fujishima A , Honda K. Nature , 1972 , 37 : 238 —245
[ 2 ]  Carey J H , Lawrence J , Tosine H M. Bull Environ. Contam. Toxical . , 1976 , 16 : 697 —701
[ 3 ]  Frank S N , Bard A J . J . Am. Chem. Soc. , 1977 , 99 : 4667 — 4675
[ 4 ]  Frank S N , Bard A J . J . Phys. Chem. , 1977 , 81 : 1484 —1486
[ 5 ]  Oillis D E. Emiron. Sci . Technol . , 1985 , 19 : 480 —484
[ 6 ]  Ollis D F , Pelizzetti E , Serpone N. Emiron. Sci . Technol . , 1991 , 25 : 1522 —1529
[ 7 ]  Mathews R W. Wat . Res. , 1986 , 20 : 569 —578
[ 8 ]  Hoffmann M R , Martin S T, Choi W Y, et al . Chem. Rev. , 1995 , 95 : 69 —96
[ 9 ]  Linsebigler A L , Lu G Q , Yates J T. Chem. Rev. , 1995 , 95 : 735 —758
[10 ]  Thompson TL , Yates J T. Chem. Rev. , 2006 , 106 : 4428 —4453
[11 ]  Chen X B , Mao S S. Chem. Rev. , 2007 , 107 : 2891 —2959
[12 ]  籍宏伟(Ji H W) , 马万红(Ma W H) , 黄应平(Huang Y P) , 赵进才(Zhao J C) , 王正平(Wang Z P) . 科学通报(Chinese Science Bulletin) , 2003 , 48 (21) : 2199 —2204
[13 ]  张天永(Zhang T Y) , 朱丹丹(Zhu D D) , 付强(Fu Q) , 赵进才(Zhao J C) . 染料与染色(Dyestuff and Coloration) , 2004 , 41 (4) : 238 —240
[14 ]  林华香(Lin H X) , 王绪绪(Wang X X) , 付贤智(Fu X Z) . 化学进展(Progress in Chemistry) , 2007 , 19 (5) : 665 —670
[15 ]  丁正新(Ding Z X) , 王绪绪(Wang X X) , 付贤智(Fu X Z) . 化工进展( Chemical Industry and Engineering Progress) , 2003 , 22 (20) : 1278 —1283
[16 ]  张彭义(Zhang P Y) , 余刚(Yu G) . 环境科学进展(Advances in Environmental Science) , 1998 , 6 (5) : 50 —56
[17 ]  范晓星(Fan X X) , 于涛(Yu T) , 邹志刚(Zou Z G) . 功能材料(Journal of Functional Materials) , 2006 , 37 (1) : 6 —9
[18 ]  李敦钫(Li D F) , 郑菁(Zheng J ) , 陈新益(Chen X Y) , 邹志刚(Zou Z G) . 化学进展( Progress in Chemistry) , 2007 , 19 (4) : 464 —477
[19 ]  唐玉朝(Tang Y C) , 胡春(Hu C) , 王怡中(Wang Y Z) . 化学进展(Progress in Chemistry) , 2002 , 14 (3) : 192 —199
[20 ]  Fujishima A , Rao T N , Tryk D A. J . Photochem. Photobiol . C , 2000 , 1 : 1 —21
[21 ]  Malato S , Blanco J , Vidal A , et al . Appl . Catal . B , 2002 , 37 : 1 —15
[22 ]  Pirkanniemi K, Sillanpaa M. Chemosphere , 2002 , 48 : 1047 —1060
[23 ]  Ni M, Leung M K H , Leung D Y C , et al . Renewable and Sustainable Energy Rev. , 2007 , 11 : 401 —425
[24 ]  Gaya U I , Abdullah A H. J . Photochem. Photobiol . A , 2008 , 9 : 1 —12
[25 ]  Puma G L , Bono A , Krishnaiah D , et al . J . Hazard. Mater. , 2008 , 157 : 209 —219
[26 ]  Cheng S F , Tsai S J , Lee Y F. Catal . Today , 1995 , 26 : 87 —96
[27 ]  Kato H , Kudo A. Chem. Phys. Lett . , 1998 , 295 : 487 —492
[28 ]  Tachikawa T, Fujitsuka M, Majima T. J . Phys. Chem. C , 2007 , 111 : 5259 —5275
[29 ]  Shiraishi Y, Hirai T. J . Photochem. Photobiol . C , 2008 , 9 : 157 — 170
[30 ]  Dhananjeyan M R , Kandavelu V , Renganathan R. J . Mol . Catal . A , 2000 , 158 : 577 —582
[31 ]  Slamet , Nasution H W, Purnama E , et al . Catal . Commun. , 2005 , 6 : 313 —319
[32 ]  Paola A D , García2López E , Ikeda S , et al . Catal . Today , 2002 , 75 : 87 —98
[33 ]  Rengaraj S , Li X Z. J . Mol . Catal . A , 2006 , 243 : 60 —67
[34 ]  Roy S , Aarthi T, Hegde MS , et al . Ind. Eng. Chem. Res. , 2007 , 46 : 5798 —5802
[35 ]  Wang X H , Li J G, Kamiyama H , et al . J . Phys. Chem. B , 2006 , 110 : 6804 —6809
[36 ]  Tayade R J , Kulkarni R G, Jasra R V. Ind. Eng. Chem. Res. , 2006 , 45 : 5231 —5238
[37 ]  Luo H , Takata T, Zhao J , et al . Chem. Mater. , 2004 , 16 : 846 — 849
[38 ]  Bessekhouad Y, Robert D , Weber J V , Chaoui N. J . Photochem. Photobiol . A , 2004 , 167 : 49 —57
[39 ]  Salmi M, Tkachenko N , Lamminm¾ ki R J , et al . J . Photochem. Photobiol . A , 2005 , 175 : 8 —14
[40 ]  Choi W Y, Termin A , Hoffmann M R. Angew. Chem. Int . Ed. , 1994 , 106 : 1148 —1149
[41 ]  Choi W Y, Termin A , Hoffmann M R. Angew. Chem. Int . Ed. , 1994 , 33 : 1091 —1092
[42 ]  Choi W Y, Termin A , Hoffmann M R. J . Phys. Chem. , 1994 , 98 : 13669 —13679
[43 ]  Paola A D , Marei G, Palmisano L , et a1. J . Phys. Chem. B , 2002 , 106 : 637 —645
[44 ]  Gratael M, Howe R E. J . Phys. Chem. , 1990 , 94 : 2566 —2572
[45 ]  Bryan J D , Heald SM, Chambers S A , et al . J . Am. Chem. Soc. , 2004 , 126 : 11640 —11647
[46 ]  Gracia F , Holgado J P , Caballero A , et al . J . Phys. Chem. B , 2004 , 108 : 17466 —17476
[47 ]  Anpo M, Takeuchi M. J . Catal . , 2003 , 216 : 505 —516
[48 ]  Fuerte A , Hernandez2Alonso M D , Maira A J , et al . Chem. Commun. , 2001 , 2718 —2719
[49 ]  Zhao W, Chen C C , Zhao J C , et al . J . Phys. Chem. B , 2002 , 106 : 5022 —5028
[50 ]  Yu J C , Li G S , Wang X C , et al . Chem. Commun. , 2006 , 2717 —2719
[51 ]  Zhu J , Ren J , Li H X, et al . J . Phys. Chem. C , 2007 , 111 : 18965 —18969
[52 ]  Iwasaki M, Hara M, Kawada H , et al . J . Colloid. Interf . Sci . , 2000 , 224 : 202 —204
[53 ]  Ranjit KT, Willner I , Bossmann S H , et al . J . Catal . , 2001 , 204 : 305 —313
[54 ]  Xu A W, Gao Y, Liu H Q. J . Catal . , 2002 , 207 : 151 —157
[55 ]  Xie YB , Yuan C W. Appl . Catal . B , 2003 , 46 : 251 —259
[56 ]  Su W Y, Chen J X, Fu X Z, et al . Appl . Catal . B , 2008 , 77 : 264 —271
[57 ]  程萍(Cheng P) ,顾明元(Gu M Y) ,金燕苹(Jin Y P) . 化学进展(Progress in Chemistry) , 2005 , 17 (1) : 8 —14
[58 ]  Sato S , White J M. Chem. Phys. Lett . , 1980 , 72 : 83 —86 [59 ]  Martra G. Appl . Catal . A , 2000 , 200 : 275 —285
[60 ]  Zhang Z B , Wang C C , Zakaria R , et al . J . Phys. Chem. , 1998 , 102 : 10871 —10878
[61 ]  Wang C , Liu C , Chen L , et al . J . Colloid. Interface Sci . , 1997 , 191 : 464 —470
[62 ]  Fu X Z, Zeltner WA , Anderson M A. Appl . Catal . B , 1995 , 6 : 209 —224
[63 ]  Chavadej S , Phuaphromyod P , Gulari E , et al . Chem. Eng. J . , 2008 , 137 : 489 —495
[64 ]  Ma Y S , Chang C N , Chiang Y P , et al . Chemosphere , 2008 , 71 : 998 —1004
[65 ]  Yu Z, Chuang S S C. Appl . Catal . B , 2008 , 83 : 277 —285
[66 ]  Li C H , Hsieh YH , Chiu WT, et al . Sep. Purif . Technol . , 2007 ,
58 : 148 —151
[67 ]  Ou H H , Lo S L. J . Mol . Catal . A , 2007 , 275 : 200 —205
[68 ]  Nicole J R , Pierre P. J . Phys. Chem. , 1986 , 90 : 2733 —2738
[69 ]  Zhang F X, Jin R C , Chen J X, et al . J . Catal . , 2005 , 232 : 424 —431
[70 ]  Panpranot J , Nakkararuang L , Ngamsom B , et al . Catal . Lett . , 2005 , 103 : 53 —58
[71 ]  Anandan S , Kumar P S , Pugazhenthiran N , et al . Sol . Energy Mater. Sol . Cells , 2008 , 92 : 929 —937
[72 ]  Sobana N , Selvam K, Swaminathan M. Sep. Purif . Technol . , 2008 , 62 : 648 —653
[73 ]  Xin B F , Jing L Q , Ren Z Y, et al . J . Phys. Chem. B , 2005 ,109 : 2805 —2809
[74 ]  Chu S Z, Inoue S , Wada K, et al . Langmuir , 2005 , 21 : 8035 — 8041
[75 ]  Ranjit K T, Varadarajan T K, Viswanathan B. J . Photochem. Photobiol . A , 1995 , 89 : 67 —68
[76 ]  Zhu B , Li K, Zhou J , et al . Catal . Commun. , 2008 , 9 : 2323 — 2326
[77 ]  Aramendía MA , Borau V , Colmenares J C , et al . Appl . Catal . B , 2008 , 80 : 88 —97
[78 ]  Erkan A , Bakir U , Karakas G. J . Photochem. Photobiol . A , 2006 , 184 : 313 —321
[79 ]  Arana J , Dona2Rodr¥guez J M, Melian J A H , et al . J . Photochem. Photobiol . A , 2005 , 174 : 7 —14
[80 ]  AraÌa J , DoÌa2Rodríguez J M, Gonzalez2Diaz O , et al . J . Mol . Catal . A , 2004 , 215 : 153 —160
[81 ]  Arabatzis I M, Stergiopoulos T, Andreeva D , et al . J . Catal . , 2003 , 220 : 127 —135
[82 ]  Jung J M, Wang M, Kim E , et al . Appl . Catal . B , 2008 , 84 : 389 —392
[83 ]  Kumar P S , Sivakumar R , Anandan S , et al . Wat . Res. , 2008 , 42 : 4878 —4884
[84 ]  Yogi C , Kojima K, Wada N , et al . Thin Solid Films , 2008 , 516 : 5881 —5884
[85 ]  Chiarello GL , Selli E , Forni L. Appl . Catal . B , 2008 , 84 : 332 — 339
[86 ]  Herrmann J M, Disdier J , Pichat P. J . Phys. Chem. , 1986 , 90 : 6028 —6034
[87 ]  Ni M, Leung M K H , Leung D Y C , et al . Renew Sustain Energy Rev. , 2007 , 11 : 401 —425
[88 ]  Spanhel L , Weller H , Henglein A. J . Am. Chem. Soc. , 1987 , 109 (22) : 6632 —6635
[89 ]  Biswas S , Hossain M F , Takahashi T, et al . Thin Solid Films , 2008 , 516 : 7313 —7317
[90 ]  Zhang Y J , Yan W, Wu Y P , et al . Mater. Lett . , 2008 , 62 : 3846 —3848
[91 ]  Jang J S , Kim H G, Borse P H , et al . Int . J . Hydrogen Energy , 2007 , 32 : 4786 —4791
[92 ]  Bessekhouad Y, Chaoui N , Trzpit M, et al . J . Photochem. Photobiol . A , 2006 , 183 : 218 —224
[93 ]  TristÃo J C , MagalhÃes F , Corio P , et al . J . Photochem. Photobiol . A , 2006 , 181 : 152 —157
[94 ]  Jang J S , Li W, Oh S H , et al . Chem. Phys. Lett . , 2006 , 425 : 278 —282
[95 ]  Wu L , Yu J C , Fu X. J . Mol . Catal . A , 2006 , 244 : 25 —32
[96 ]  Kumar A , Jain A K. J . Mol . Catal . A , 2001 , 165 : 265 —273
[97 ]  Choi J , Yeo K, Yoon M, et al . J . Photochem. Photobiol . A , 2000 , 132 : 105 —114
[98 ]  Nasr C , Kamat P V , Hotchandani S. J . Phys. Chem. B , 1998 , 102 : 10047 —10056
[99 ]  Vinodgopal K, Bedja I , Kamat P V. Chem. Mater. , 1996 , 8 : 2180 —2187
[100 ] Vinodgopal K, Kamat P V. Environ. Sci . Technol . , 1995 , 29 : 841 —845
[101 ] Ohsaki H , Kanai N , Fukunaga Y, et al . Thin Solid Films , 2006 , 502 : 138 —142
[102 ] Chen S , Chen L , Gao S , et al . Mater. Chem. Phys. , 2006 , 98 : 116 —120
[103 ] Chinarro E , Moreno B , Jurado J R. J . Eur. Ceram. Soc. , 2007 , 27 : 3601 —3604
[104 ] Okada M, Tajima K, Yamada Y, et al . Vacuum , 2009 , 83 : 688 — 690
[105 ] Matsunaga T, Yamaoka H , Ohtani S , et al . Appl . Catal . A , 2008 , 351 : 231 —238
[106 ] Ismail A A , Matsunaga H. Chem. Phys. Lett . , 2007 , 447 : 74 —78
[107 ] Ibhadon A O , Greenway GM, Yue Y. Catal . Commun. , 2008 , 9 : 153 —157
[108 ] Marugan J , Lopez2Munoz M J , van Grieken R , et al . Ind. Eng. Chem. Res. , 2007 , 46 : 7605 —7610
[109 ] Zhang M H , Shi L Y, Yuan S , et al . J . Colloid Interface Sci . , 2009 , 330 (1) : 113 —118
[110 ] Li Y, Wu C Y. Environ. Sci . Technol . , 2006 , 40 : 6444 —6448
[111 ] Ke D , Liu H , Peng T, et al . Mater. Lett . , 2008 , 62 : 447 —450
[112 ] Pan J H , Lee W I. Chem. Mater. , 2006 , 18 : 847 —853
[113 ] Li S , Ma Z, Zhang J , et al . Catal . Today , 2008 , 139 : 109 —112
[114 ] Kostedt WL , Ismail A A , Mazyck D W. Ind. Eng. Chem. Res. , 2008 , 47 : 1483 —1487
[115 ] Liao D L , Badour C A , Liao B Q. J . Photochem. Photobiol . A , 2008 , 194 : 11 —19
[116 ] Jiang Y, Sun Y, Liu H , et al . Dyes and Pigments , 2008 , 78 : 77 — 83
[117 ] Mohamed M M, Othman I , Mohamed R M. J . Photochem. Photobiol . A , 2007 , 191 : 153 —161
[118 ] Xu J , Ao Y, Fu D , et al . Appl . Surf . Sci . , 2008 , 255 : 2365 — 2369
[119 ] Zhang X, Lei L. Appl . Surf . Sci . , 2008 , 254 : 2406 —2412
[120 ] Franco A , Neves M C , Ribeiro2Carrott M M L , et al . J . Hazard. Mater. , 2009 , 161 : 545 —550
[121 ] He Q H , Zhang Z X, Xiong J W, et al . Opt . Mater. , 2008 , 31 : 380 —384
[122 ] Skorb E V , Ustinovich E A , Kulak A I , et al . J . Photochem. Photobiol . A , 2008 , 193 : 97 —102
[123 ] Peter L M, Riley D J , Tull E J , et al . Chem. Commun. , 2002 , 1030 —1031
[124 ] Yu J C , Wu L , Lin J , et al . Chem. Commun. , 2003 , 1552 —1553
[125 ] Ho W K, Yu J C , Lin J , et al . Langmuir , 2004 , 20 : 5865 —5869
[126 ] Zang L , Macyk W, Lange C , et al . Chem. Eur. J . , 2000 , 6 : 379 —384
[127 ] Asahi R , Morikawa T, Ohwaki T, et a1. Science , 2001 , 293 : 269 —271
[128 ] Khan S U M, Al2Shahry M, Ingler W B. Science , 2002 , 297 : 2243 —2245
[129 ] Kitano M, Funatsu K, Matsuoka M, et al . J . Phys. Chem. B , 2006 , 110 : 25266 —25272
[130 ] Sakthivel S , Kisch H. Angew. Chem. Int . Ed. , 2003 , 42 : 4908 — 4911
[131 ] Valentin C D , Pacchioni G, Selloni A. Chem. Mater. , 2005 , 17 : 6656 —6665
[132 ] Tachikawa T, Tojo S , Kawai K, et al . J . Phys. Chem. B , 2004 , 108 : 19299 —19306
[133 ] Li H X, Zhang X Y, Huo Y N , et al . Environ. Sci . Technol . ,2007 , 41 : 4410 —4414
[134 ] Yang K S , Dai Y, Huang B B. J . Phys. Chem. C , 2007 , 111 : 18985 —18994
[135 ] Wang Y, Li J , Peng P , et al . Appl . Surf . Sci . , 2008 , 254 : 5276 —5280
[136 ] Ohno T, Murakami N , Tsubota T, et al . Appl . Catal . A , 2008 , 349 : 70 —75
[137 ] Nishijima K, Ohtani B , Yan X, et al . Chem. Phys. , 2007 , 339 : 64 —72
[138 ] Ohno T, Akiyoshi M, Umebayashi T, et al . Appl . Catal . A , 2004 , 265 : 115 —121
[139 ] Shi Q , Yang D , Jiang Z, et al . J . Mol . Catal . B , 2006 , 43 : 44 — 48
[140 ] Yu H F. J . Phys. Chem. Solids , 2007 , 68 : 600 —607
[141 ] Park J S , Choi W. Langmuir , 2004 , 20 : 11523 —11527
[142 ] Yu J C , Yu J G, Ho W K, et al . Chem. Mater. , 2002 , 14 : 3808 —3816
[143 ] Xie Y, Zhao X, Li Y, et al . J . Solid State Chem. , 2008 , 181 : 1936 —1942
[144 ] Wu G, Chen A. J . Photochem. Photobiol . A , 2008 , 195 : 47 —53
[145 ] Xu J , Ao Y, Fu D , et al . Appl . Surf . Sci . , 2008 , 254 : 3033 — 3038
[146 ] Yamazaki S , Yoshida A , Abe H. J . Photochem. Photobiol . A , 2005 , 16 : 191 —196
[147 ] Hong X T, Wang Z P , Cai WM, et al . Chem. Mater. , 2005 , 17 : 1548 —1552
[148 ] Zhao W, Ma W H , Zhao J C , et al . J . Am. Chem. Soc. , 2004 , 126 : 4782 —4783
[149 ] Li J S , Shieh D L , Li D Y, et al . Appl . Surf . Sci . , 2008 , 254 : 4655 —4664
[150 ] Fittipaldi M, Gombac V , Montini T, et al . Inorg. Chim. Acta , 2008 , 361 : 3980 —3987
[151 ] Moon S C , Mametsuka H , Tabata S , et al . Catal . Today , 2000 , 58 : 125 —132
[152 ] Jin R B , Wu Z B , Liu Y, et al . J . Hazard. Mater. , 2009 , 161 : 42 —48
[153 ] Takabayashi S , Nakamura R , Nakato Y. J . Photochem. Photobiol . A , 2004 , 166 : 107 —113
[154 ] Yang K, Dai Y, Huang B. Chem. Phys. Lett . , 2008 , 456 : 71 —75
[155 ] Wang J W, Zhu W, Zhang Y Q , Liu S X. J . Phys. Chem. C , 2007 , 111 : 1010 —1014
[156 ] Wang X C , Yu J C , Fu X Z, et al . Environ. Sci . Technol . , 2006 , 40 : 2369 —2374
[157 ] Kisch H , Zang L , Lange C , et al . Angew. Chem. Int . Ed. , 1998 , 37 : 3034 —3036
[158 ] Zang L , Lange C , Maier W F , et al . J . Phys. Chem. B , 1998 , 102 : 10765 —10771
[159 ] Zang L , Rodgers MAJ . J . Phys. Chem. B , 2000 , 104 : 468 —474
[160 ] Cho Y M, Choi W Y, Lee C H , et al . Environ. Sci . Technol . , 2001 , 35 : 966 —970
[161 ] Bae E , Choi W Y. Environ. Sci . Technol . 2003 , 37 : 147 —152
[162 ] O′Regan B , Gr¾ tzel M. Nature , 1991 , 353 : 737 —740
[163 ] Yu J C , Xie Y, Tang H Y, et al . J . Photochem. Photobiol . A , 2003 , 156 : 235 —241
[164 ] Konstantinou I K, Albanis T A. Appl . Catal . B , 2004 , 49 : 1 —14
[165 ] Sumathy K. Renewable Sustainable Energy Rev. , 2007 , 11 : 401 — 425
[166 ] Solbrand A , Henningsson A , Soldergren S , et al . J . Phys. Chem. B , 1999 , 103 : 1078 —1083
[167 ] Wang Z S , Ebiria Y, Takada K, et al . Langmuir , 2003 , 19 : 9534 —9537
[168 ] Hong A P , Bahnemann D W, Hofmamn M R , et al . J . Phys. Chem. , 1987 , 9 : 6245 —6251
[169 ] Ranjit K T, Willner I , Bossmann S , et al . J . Phys. Chem. B , 1998 , 102 : 9397 —9403
[170 ] Li J Y, Chen C C , Zhao J C , et al . Appl . Catal . B , 2002 , 37 : 331 —338
[171 ] Wu T X, Liu G M, Zhao J C , et al . J . Phys. Chem. B , 1998 , 102 : 5845 —5851
[172 ] Zhao J C , Wu T X, Wu KQ , et al . Environ. Sci . Technol . , 1998 , 32 : 2394 —2400
[173 ] Wu T X, Lin T, Zhao J C , et al . Environ. Sci . Technol . , 1999 , 33 : 1379 —1387
[174 ] Liu GM, Wu T X, Zhao J C , et al . Environ. Sci . Technol . , 1999 , 33 : 2081 —2087
[175 ] Liu GM, Zhao J C. New J . Chem. , 2000 , 24 : 411 —417
[176 ] Qu P , Zhao J C , Zang L , et al . Colloids Surf . A , 1998 , 138 : 39 — 50
[177 ] Qu P , Zhao J C , Shen T, et al . J . Mol . Catal . A , 1998 , 129 : 257 —268
[178 ] Zhang F L , Zhao J C , Shen T, et al . Appl . Catal . B , 1998 , 15 : 147 —156
[179 ] Zhang F L , Zhao J C , Zang L , et al . J . Mol . Catal . A , 1997 , 120 : 173 —178
[180 ] Hidaka H , Shimura T, Zhao J C , et al . J . Photochem. Photobiol . A , 1997 , 109 : 165 —170
[181 ] [2008210 ] . http :PPwww. chem. zju. edu. cnP~xuymPsemiconductor
[182 ] He J P , Chen F , Zhao J C , et al . Colloids Surf . A , 1998 , 142 : 49 —57
[183 ] Yang J , Chen C C , Zhao J C , et al . J . Phys. Chem. B , 2005 , 109 : 21900 —21907
[184 ] Liu GM, Li X Z, Zhao J C , et al . J . Mol . Catal . A , 2000 , 153 : 221 —229
[185 ] Chen C C , Zhao W, Zhao J C , et al . Environ. Sci . Technol . , 2002 , 36 : 3604 —3611
[186 ] Wu T X, Liu G M, Zhao J C , et al . J . Phys. Chem. B , 1999 , 103 : 4862 —4867
[187 ] He J J , Zhao J C , Shen T, et al . J . Phys. Chem. B , 1997 , 101 : 9027 —9034
[1] 王丹丹, 蔺兆鑫, 谷慧杰, 李云辉, 李洪吉, 邵晶. 钼酸铋在光催化技术中的改性与应用[J]. 化学进展, 2023, 35(4): 606-619.
[2] 刘雨菲, 张蜜, 路猛, 兰亚乾. 共价有机框架材料在光催化CO2还原中的应用[J]. 化学进展, 2023, 35(3): 349-359.
[3] 李锋, 何清运, 李方, 唐小龙, 余长林. 光催化产过氧化氢材料[J]. 化学进展, 2023, 35(2): 330-349.
[4] 张永, 张辉, 张逸, 高蕾, 卢建臣, 蔡金明. 表面合成异质原子掺杂的石墨烯纳米带[J]. 化学进展, 2023, 35(1): 105-118.
[5] 范倩倩, 温璐, 马建中. 无铅卤系钙钛矿纳米晶:新一代光催化材料[J]. 化学进展, 2022, 34(8): 1809-1814.
[6] 马晓清. 石墨炔在光催化及光电催化中的应用[J]. 化学进展, 2022, 34(5): 1042-1060.
[7] 李婧婧, 李洪基, 黄强, 陈哲. 掺杂对钠离子电池正极材料性能影响机制的研究[J]. 化学进展, 2022, 34(4): 857-869.
[8] 李晓微, 张雷, 邢其鑫, 昝金宇, 周晋, 禚淑萍. 磁性NiFe2O4基复合材料的构筑及光催化应用[J]. 化学进展, 2022, 34(4): 950-962.
[9] 庞欣, 薛世翔, 周彤, 袁蝴蝶, 刘冲, 雷琬莹. 二维黑磷基纳米材料在光催化中的应用[J]. 化学进展, 2022, 34(3): 630-642.
[10] 占兴, 熊巍, 梁国熙. 从废水到新能源:光催化燃料电池的优化与应用[J]. 化学进展, 2022, 34(11): 2503-2516.
[11] 王文婧, 曾滴, 王举雪, 张瑜, 张玲, 王文中. 铋基金属有机框架的合成与应用[J]. 化学进展, 2022, 34(11): 2405-2416.
[12] 孟鹏飞, 张笑容, 廖世军, 邓怡杰. 金属/非金属元素掺杂提升原子级分散碳基催化剂的氧还原性能[J]. 化学进展, 2022, 34(10): 2190-2201.
[13] 唐晨柳, 邹云杰, 徐明楷, 凌岚. 金属铁络合物光催化二氧化碳还原[J]. 化学进展, 2022, 34(1): 142-154.
[14] 卢赟, 史宏娟, 苏岳锋, 赵双义, 陈来, 吴锋. 元素掺杂碳基材料在锂硫电池中的应用[J]. 化学进展, 2021, 33(9): 1598-1613.
[15] 葛明, 胡征, 贺全宝. 基于尖晶石型铁氧体的高级氧化技术在有机废水处理中的应用[J]. 化学进展, 2021, 33(9): 1648-1664.