中文
Earlier issues
Announcement
More
Progress in Chemistry 2005, Vol. 17 Issue (02): 242-247 Previous Articles   Next Articles

• Review •

Progress of Semiconductor Photocatalysts Under Visible Light Irradiation

Huang Wenya** Yu Ying   

  1. (Nano-Science and Technology Research Center , Central China Normal University , Wuhan 430079 , China)
  • Received: Revised: Online: Published:
  • Contact: Huang Wenya E-mail:wendywenya @126. com
PDF ( 2565 ) Cited
Export

EndNote

Ris

BibTeX

Photocatalytic decomposition of water into H2 has not been applied widely in practice because it is unable to utilize sunlight efficiently. Therefore , the research on the photocatalysts under visible light has been one of the most important issues. In this paper , the mechanism of the photocatalytic decomposition of H2O into H2 is described. Recent progress of semiconductor photocatalysts under visible light irradiation is briefly reviewed with the emphasis on the structure of these catalysts.

Key words: visible light, semiconductor, photocatalysts, hydrogen production

CLC Number: 

[ 1 ] 李树本(Li S B) . 太阳能(Solar Energy) , 1999 , (4) : 30 —31
[ 2 ] 李越湘(Li Y X) , 吕功煊(Lü G X) , 李树本(Li S B) . 分子催化(J . Molecular Catal . ) , 2001 , 15(1) : 72 —79
[ 3 ] 钱丽苹(Qian L P) , 刘奎仁(Liu K R) , 魏绪钧(Wei X J ) .材料与冶金学报(J . Mater. Metallurgy) , 2003 , 2(1) : 10 —15
[ 4 ] Fujishima A , Honda K. Nature , 1972 , 238 : 37 —39
[ 5 ] Sayama K, Arakawa H. J . Photochem. Photobiol . A , 1994 , 77 :243 —249
[ 6 ] Sayama K, Arakawa H. J . Photochem. Photobiol . A , 1996 , 94 :67 —76
[ 7 ] Machida M, Yabunaka J , Kijima T. Chem. Commun. , 1999 ,1939 —1940
[ 8 ] Yinoue Y, Asai Y, Sato K. J . Chem. Soc. , Faraday Trans. ,1994 , 90(5) : 797 —802
[ 9 ] Ikarashi K, Sato J , Inoue Y, et al . J . Phys. Chem. B , 2002 ,106 : 9048 —9053
[10] Bessekhouad Y, Trari M. Inter. J . Hydrogen Energy , 2002 , 27 :357 —362
[11] Sato J , Kobayashi H , Inoue Y, et al . J . Photochem. Photobiol .A , 2003 , 158 : 139 —144
[12] 上官文峰(Shangguan W F) . 无机化学学报(Chin. J . Inorg.Chem. ) , 2001 , 17(5) : 619 —625
[13] Kasahara A , Nukumizu K, Domen K, et al . J . Phys. Chem. A ,2002 , 106 : 6750 —6753
[14] Hitoki G, Takata T , Domen K, et al . Chem. Commun. , 2002 ,1698 —1699
[15] Chun W J , Ishikawa A , Domen K, et al . J . Phys. Chem. B ,2003 , 107 : 1798 —1803
[16] Asahi R , Morikawa T , Ohwaki T , et al . Science , 293 : 269 —271
[17] Kasahara A , Nukumizu K, Domen K, et al . J . Phys. Chem. B ,2003 , 107 : 791 —797
[18] Mau A W H , Huang C B , Bard A J , et al . J . Am. Chem. Soc. ,1984 , 106 : 6537 —6542
[19] Kobayashi J , Kitaguchi K, Ueno A , et al . J . Chem. Soc. ,Faraday Trans. 1 , 1987 , 83 : 1395 —1404
[20] Hirai T , Bando Y, Komasawa I. J . Phys. Chem. B , 2002 , 106 :8967 —8970
[21] Serpone N , Borgarello E , Gr? tzel M. J . Chem. Soc. , Chem.Commun. , 1984 , 342 —344
[22] Ueno A , Kakuta N , Bard A J , et al . J . Phys. Chem. , 1985 ,89 : 3828 —3836
[23] Finlayson M F , Wheeler B L , White J M, et al . J . Phys.Chem. , 1985 , 89 : 5676 —5681
[24] Shangguan W F , Yoshida A. J . Phys. Chem. B , 2002 , 106 :12227 —12230
[25] Kida T , Guan G Q , Yoshida A. Chem. Phys. Lett . , 2003 , 371 :563 —567
[26] Kudo A , Sekizawa M. Chem. Commun. , 2000 , 1371 —1372
[27] Ishii T , Kato H , Kudo A. J . Photochem. Photobio. A , 2004 ,163 : 181 —186
[28] Kato H , Kudo A. J . Phys. Chem. B , 2002 , 106 : 5029 —5034
[29] Yanagisawa M, Uchida S , Sato T. Int . J . Inorg. Mater. , 2000 ,2 : 339 —346
[30] 杨娟( Yang J ) . 江苏大学学报(自然科学版) (J . Jiangsu University , Natural Sci . Edition) , 2003 , 24(4) : 53 —56
[31] 郭宪吉(Guo X J ) , 侯文华(Hou W H) , 颜其洁( Yan Q J )等. 科学通报(Chin. Sci . Bull . ) , 2002 , 47 (22) : 1681 —1689
[32] Ye J , Zou Z G, Ye J H. J . Phys. Chem. B , 2003 , 107 : 61 —65
[33] Ye J , Zou Z G, Ye J H. J . Phys. Chem. B , 2003 , 107 : 4936 —4941
[34] Takata T , Tanaka A , Domen K, et al . Catalysis Today , 1998 ,44 : 17 —26
[35] Yoshimura J , Ebina Y, Domen K, et al . J . Phys. Chem. , 1993 ,97 : 1970 —1973
[36] Zou Z G, Ye J H , Arakawa H. Mater. Res. Bull . , 2001 , 36 :1185 —1193
[37] Zou Z G, Ye J H , Arakawa H. Inter. J . Hydrogen Energy ,2003 , 28 : 663 —669
[38] Zou Z G, Ye J H , Arakawa H. J . Photochem. Photobio. A ,2002 , 148 : 65 —69
[39] Zou Z G, Ye J H , Sayama K. Nature , 2001 , 414 : 625 —627
[40] Zou Z G, Ye J H , Arakawa H. J . Phys. Chem. B , 2002 , 106 :13098 —13101
[41] Ye J H , Zou Z G, Oshikiri M, et al . Chem. Phys. Lett . , 2002 ,356 : 221 —226
[42] Zou Z G, Arakawa H. J . Photochem. Photobiol . A , 2003 , 158 :145 —162
[43] Ye J , Zou Z G, Ye J H. Chem. Phys. Lett . , 2003 , 378 : 24 —28
[44] Wang D F , Zou Z G, Ye J H , et al . Chem. Phys. Lett . , 2003 ,373 : 191 —196
[1] Dong Baokun, Zhang Ting, He Fan. Research Progress and Application of Flexible Thermoelectric Materials [J]. Progress in Chemistry, 2023, 35(3): 433-444.
[2] Jing Li, Weigang Zhu, Wenping Hu. Organic Complex Materials and Devices for Near and Shortwave Infrared Photodetection [J]. Progress in Chemistry, 2023, 35(1): 119-134.
[3] Qianqian Fan, Lu Wen, Jianzhong Ma. Lead-Free Halide Perovskite Nanocrystals: A New Generation of Photocatalytic Materials [J]. Progress in Chemistry, 2022, 34(8): 1809-1814.
[4] Lin Chen, Jie-Feng Chen, Yi-Ren Liu, Yuyu Liu, Hai-Feng Ling, Ling-Hai Xie. Organic Strained Semiconductors and Their Optoelectronic Properties [J]. Progress in Chemistry, 2022, 34(8): 1772-1783.
[5] Yiling Tan, Shichun Li, Xi Yang, Bo Jin, Jie Sun. Strategies of Improving Anti-Humidity Performance for Metal Oxide Semiconductors Gas-Sensitive Materials [J]. Progress in Chemistry, 2022, 34(8): 1784-1795.
[6] Chenghao Li, Yamin Liu, Bin Lu, Ulla Sana, Xianyan Ren, Yaping Sun. Toward High-Performance and Functionalized Carbon Dots: Strategies, Features, and Prospects [J]. Progress in Chemistry, 2022, 34(3): 499-518.
[7] Xing Zhan, Wei Xiong, Michael K.H Leung. From Wastewater to Energy Recovery: The Optimized Photocatalytic Fuel Cells for Applications [J]. Progress in Chemistry, 2022, 34(11): 2503-2516.
[8] Yanmei Ren, Jiajun Wang, Ping Wang. Molybdenum Disulfide as an Electrocatalyst for Hydrogen Evolution Reaction [J]. Progress in Chemistry, 2021, 33(8): 1270-1279.
[9] Junwen Cao, Wenqiang Zhang, Yifeng Li, Chenhuan Zhao, Yun Zheng, Bo Yu. Current Status of Hydrogen Production in China [J]. Progress in Chemistry, 2021, 33(12): 2215-2244.
[10] Hongfei Bi, Jinsong Liu, Zhengying Wu, He Suo, Xueliang Lv, Yunlong Fu. Modified Synthesis and Photocatalytic Properties of Indium Zinc Sulfide [J]. Progress in Chemistry, 2021, 33(12): 2334-2347.
[11] Shicheng Jin, Shuang Yan. Nanostructure Construction and Sensing Mechanism of Metal Oxides for Room Temperature Gas Sensing [J]. Progress in Chemistry, 2021, 33(12): 2348-2361.
[12] Chuxuan Yan, Qinglin Li, Zhengqi Gong, Yingzhi Chen, Luning Wang. Organic Semiconductor Nanostructured Photocatalysts [J]. Progress in Chemistry, 2021, 33(11): 1917-1934.
[13] Xuqiang Zhang, Gongxuan Lu. Thin Film Protection Strategy of Ⅲ-Ⅴ Semiconductor Photoelectrode for Water Splitting [J]. Progress in Chemistry, 2020, 32(9): 1368-1375.
[14] Lei Zhu, Jianan Wang, Jianwei Liu, Ling Wang, Wei Yan. Applications of Electrospun One-Dimensional Nanomaterials in Gas Sensors [J]. Progress in Chemistry, 2020, 32(2/3): 344-360.
[15] Qilu Yao, Hongxia Du, Zhang-Hui Lu. Catalytic Hydrolysis of Ammonia Borane for Hydrogen Production [J]. Progress in Chemistry, 2020, 32(12): 1930-1951.