提高银基半导体材料光催化性能的有效途径

The Effective Method of Photocatalytic Activity Enhancing for Ag--based Semiconductors

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摘要银基材料因其合适的能隙而具有较好的光催化性能。然受其自身结构的限制（量子效率普遍不高）及见光容易分解的化学不稳定性等原因，单纯的块体银基半导体还不够理想，需要对其进一步改进和优化。本文简要论述了几种能较好提高该类材料光催化性能的方法，包括利用贵金属的等离子效应，材料的晶体工程和量子尺寸效应等几种途径。 The Ag--based semiconductors have good photocatalytic activity due to their suitable bandgap. However, the pure bulk Ag--based semiconductors are not ideal enough because of their crystal structure, which leads to poor quantum effi- ciency, and chemical instability when they expose to sunlight; hence, it is necessary to improve and optimize those materials. This paper discusses some effective methods of photocatalytic activity enhancing for Ag--based semiconductors, such as mak- ing use of the plasma effect of precious metals, the crystal engineering of materials, and quantum size effect, et. al.

作者王存邹晓川石永芳王燕王跃

机构地区重庆第二师范学院生物与化学工程系中科院福建物质结构研究所重庆市巴蜀中学

出处《中国材料科技与设备》 2015年第3期4-7,共4页 Chinese Materials Science Technology & Equipment

基金重庆市科委前沿与应用基础研究项目（cstc2013jcyjA50033）、重庆市教委科学技术研究项目（KJl31512）、重庆第二师范学院校级教改项目（JG2014213）

关键词银基半导体光催化性能提高的途径 Ag--based semiconductor Photocatalytic activity The enhancing method

分类号 TB332 [一般工业技术—材料科学与工程]

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1Y. Z. Guo, Y. J. Hu, N. Kikugawa, etal. An orthophos- phate semiconductor with photooxidation properties under visible- light irradiation [J]. Nat Mater, 2010, 9 (7): 559 - 564.
2W. X. Fei, L. S. Fen, Y. U. H. Gen, et al. Ag2Oasa new visible-light photocatalyst : self- stability and high photocata- lytie activity [J]. Chem Eur J, 2011, 17 (28) : 7777 - 7780.
3B. Y. Pu, O. S. Xin, N. Umezawa, et al. Facet effect of single-crystalline AgaPO4 sub- microcrystals on photocatalytic properties [J]. J Am Chem Soc, 2011, 133 (17) : 6490 - 6492.
4X. B. Chen, S. H. Chen, L.J. Guo, et al. Semiconductor -based Photoeatalytie Hydrogen Generation [J]. Chem. Rev., 2010, 110 (11): 6503 - 6570.
5R. Wang, B. B. Huang, Y. Dai, et al. Plasmonie photo- catalysts., harvesting visible light with noble metal nanoparticles [J]. Phys. Chem. Chem. Phys., 2012, 14 (28): 9813 - 9825.
6H. A. Atwater, A. Polman, Plasmonics for improved photovohaic devices [J]. Nat. Mater. , 2010, 9 (3): 205 - 21a.
7W. L. Barnes, A. Dereux, T. W. Ebbesen, Surface plas- mon subwavelength optics [J]. Nature, 2003, 424:824 - 830.
8Y. Tian, T. Tatsuma, Mechanisms and Applications of Plasmon-Induced Charge Separation at TiO2 Films Loaded with Gold Nanoparticles [J]. J. Am. Chem. Soc., 2005, 127 (20): 7632 - 7637.
9X. F. Wu, H. Y. Song, J. M. Yoon, et al. Synthesis of Core-Shell Au @ TiO2 Nanoparticles with Truncated Wedge- Shaped Morphology and Their Photocatalytic Properties [J]. Lang- muir, 2009, 25 (11): 6438 - 6447.
10P. Wang, B. B, Huang, X. Y Qin, et al. Ag@AgCl: A Highly Efficient and Stable Photocatalyst Active under Visible Light [J]. Angew. Chem. Int. Ed. , 2008, 47 (41): 7931 - 7933.

1汪多仁.利用废弃物生产纳米复合镁石水泥探讨[J].铝镁通讯,2008(2):36-41.
2蒋文胜.基于循环模拟模型的二氧化碳循环效能分析[J].河池学院学报,2012,32(2):33-38.
3Coordination Supramolecular Chemistry and Crystal Engineering[J].Bulletin of the Chinese Academy of Sciences,2011,25(1):62-63.
4吴萍,韩军,戈云,颜朝国.超分子砌块间苯二酚杯芳烃的研究进展[J].有机化学,2006,26(4):431-441.
5朱莉娜,廖代正.先进材料的设计——网络拓扑方法[J].Chinese Journal of Structural Chemistry,2003,22(2):125-132.
6“用于激光显示Nd:GdVO_4和LBO晶体工程技术开发研究”通过验收[J].稀土,2011,32(6):50-50.
7欧阳健明,陈德志,李祥平.生物矿化在仿生材料领域的研究进展[J].材料导报,2004,18(12):62-66. 被引量：4

中国材料科技与设备

2015年第3期

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提高银基半导体材料光催化性能的有效途径

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