纳米结构的ZnO由于具有优异的光、电、磁、声等性能,已经成为光电、化学、催化、压电等领域中聚焦的研究热点之一.不同纳米结构的ZnO其制备方法不同,着重概述了采用化学气相沉积(CVD)工艺制备ZnO纳米材料,包括直接热分解、高温加热锌粉、碳热还原法以及金属有机气相沉积(MOCVD)4种方法,重点讨论了不同锌源和氧源对ZnO纳米结构的影响规律,并初步探讨了ZnO的VLS与VS生长机理,同时展望了ZnO在各领域中的最新应用.
参考文献
| [1] | Chien F S S;Wang C R;Chan Y L et al.Fast-response ozone sensor with ZnO nanorods grown by chemical vapor deposition[J].Sensors and Actuators B: Chemical,2010,144:120. |
| [2] | Phan T L;Yu S C;Vincent R et al.Photoluminescence properties of various CVD-grown ZnO nanostructures[J].Journal of Lurnin,2010,130(07):1142. |
| [3] | Thomas M A;Cui J B .Electrochemical route to p-type doping of ZnO nanowires[J].The Journal of Physical Chemistry Letters,2010,1(07):1090. |
| [4] | Zhuo Zhang;Guowen Meng;Qiaoling Xu .Aligned ZnO Nanorods with Tunable Size and Field Emission on Native Si Substrate Achieved via Simple Electrodeposition[J].The journal of physical chemistry, C. Nanomaterials and interfaces,2010(1):189-193. |
| [5] | Semaltianos N G;Logothetidis S;Hastas N et al.Modification of the electrical properties of PEDOT:PSS by the incorporation of ZnO nanoparticles synthesized by laser ablation[J].Chemical Physics Letters,2010,484:283. |
| [6] | Ma Q;Ogino A;Matsuda T et al.Cathodoluminescenee property of ZnO nano-phosphors fabricated by pulsed Nd:YAG laser ablation in plasma circumstance[J].THIN SOLID FILMS,2010,518:3517. |
| [7] | Hu S H;Chen Y C;Hwang C C et al.Development of a wet chemical method for the synthesis of arrayed ZnO nanorods[J].Journal of Alloys Oompd,2010,500:L17. |
| [8] | Min, SK;Mane, RS;Joo, OS;Ganesh, T;Cho, BW;Han, SH .Upright-standing ZnO nano-sheets growth using wet chemistry[J].Current applied physics: the official journal of the Korean Physical Society,2009(2):492-495. |
| [9] | Erol, A;Okur, S;Comba, B;Mermer, O;Arikan, MC .Humidity sensing properties of ZnO nanoparticles synthesized by sol-gel process[J].Sensors and Actuators, B. Chemical,2010(1):174-180. |
| [10] | Azam A;Ahmed F;Arshi N et al.Formation and characterization of ZnO nanopowder synthesized by sol-gel method[J].Journal of Alloys and Compounds,2010,496:399. |
| [11] | Novel fabrication of various size ZnO nanorods using hydrothermal method[J].Microelectronic engineering,2010(5/8):1534. |
| [12] | Li P G;Wang S L;Tang W H .Low-temperature synthesis and photoluminescence of ZnO nanostructures by a facile hydrothermal process[J].Journal of Alloys and Compounds,2010,489:566. |
| [13] | 唐斌,邓宏,税正伟,陈金菊,韦敏.CVD法制备高质量ZnO纳米线及生长机理[J].人工晶体学报,2007(02):293-296. |
| [14] | 夏文高,陈金菊,邓宏.低温CVD法在玻璃衬底上制备ZnO纳米线阵列[J].发光学报,2010(02):258-260. |
| [15] | Libing Feng;Aihua Liu;Mei Liu .Fabrication and characterization of tetrapod-like ZnO nanostructures prepared by catalyst-free thermal evaporation[J].Materials Characterization,2010(1):128-133. |
| [16] | 黄运华,张跃,白雪冬,贺建,刘娟,张晓梅.ZnO双晶纳米梳[J].物理学报,2006(03):1491-1496. |
| [17] | 张旭东,邢英杰,奚中和,薛增泉,张蔷,俞大鹏.类单晶氧化锌纳米棒的制备与表征[J].真空科学与技术学报,2004(01):16-18. |
| [18] | 陈艺锋,王宇菲,阮敦绍.气相氧化直接制备多针状氧化锌[J].金属材料与冶金工程,2008(01):15-18,36. |
| [19] | Wang S L;Jia X;Jiang P et al.Large-scale preparation of chestnut-like ZnO and Zn-ZnO hollow nanostructures by chemical vapor deposition[J].Journal of Alloys and Compounds,2010,502:118. |
| [20] | Lupan O;Ursaki V V;Chai G et al.Selective hydrogen gas nanosensor using individual ZnO nanowire with fast response at room temperature[J].Sensors and Actuators B: Chemical,2010,144:56. |
| [21] | 戴英,张跃,方圆,黄秀颀,李杰.高品质四针状氧化锌晶须的结构及生长机理[J].北京科技大学学报,2002(02):200-202. |
| [22] | Chang, PC;Fan, ZY;Wang, DW;Tseng, WY;Chiou, WA;Hong, J;Lu, JG .ZnO nanowires synthesized by vapor trapping CVD method[J].Chemistry of Materials,2004(24):5133-5137. |
| [23] | 梁建,马淑芳,孙彩云,许并社.四足空心氧化锌晶须的研究[J].新技术新工艺,2004(09):48-49,50. |
| [24] | Liang J;Ma S;Zhai L.Hierarchical growth and characterization of ZnO nanowires/nano-sheets[A].北京,2004:44. |
| [25] | Xiaoyan Xing;Kaibo Zheng;Huahua Xu;Fang Fang;Haoting Shen;Jing Zhang;Jian Zhu;Chunnuan Ye;Guanying Cao;Dalin Sun;Guorong Chen .Synthesis and electrical properties of ZnO nanowires[J].Micron: The international research and review journal for microscopy,2006(4):370-373. |
| [26] | 李香萍;张宝林;申人升 等.Mocvr)制备ZnO薄膜的正交试验设计[J].半导体光电,2007,28(05):700. |
| [27] | 刘成有.MOCVD法生长ZnO纳米管及光学性能评价[J].通化师范学院学报,2007(04):1-2,5. |
| [28] | 徐伟中,叶志镇,周婷,赵炳辉,朱丽萍,黄靖云.MOCVD法以NO气体为掺杂源生长p型ZnO薄膜[J].半导体学报,2005(01):38-41. |
| [29] | Rosina M;Ferret P;Jouneau P H et al.Morphology and growth mechanism of aligned ZnO nanorods grown by catalyst-free MOCV[J].Microelectronics Journal,2009,40:242. |
| [30] | Maeng J;Jo G;Choe M et al.Structural and photoluminescence characterization of ZnO nanowalls grown by metal organic chemical vapor deposition[J].THIN SOLID FILMS,2009,518:865. |
| [31] | 丁圣,李梦轲,王雪红,刘俊,金红.取向ZnO纳米线阵列的生长机理及发光特性[J].辽宁师范大学学报(自然科学版),2006(03):305-307. |
| [32] | Li M K;Wang D Z;Ding Y W et al.Morphology and field emission from ZnO nanowire arrays synthesized at different temperature[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,2007,452-453:417. |
| [33] | 刘中奎,郑毓峰,姜海涛,孙言飞.不同形貌氧化锌纳米棒的CVD法制备及生长机制讨论[J].新疆大学学报(自然科学版),2006(04):424-427. |
| [34] | Q. Wan;Q. H. Li;Y. J. Chen;T. H. Wang;X. L. He;J. P. Li;C. L. Lin .Fabrication and ethanol sensing characteristics of ZnO nanowire gas sensors[J].Applied physics letters,2004(18):3654-3656. |
| [35] | Peidong Yang;Haoquan Yan;Samuel Mao;Richard Russo;Justin Johnson;Richard Saykally;Nathan Morris;Johnny Pham;Rongrui He;Heon-Jin Choi .Controlled Growth of ZnO Nanowires and Their Optical Properties[J].Advanced functional materials,2002(5):323-331. |
| [36] | Huang M H;Mao S et al.Room-temperature ultraviolet nanowire nanolasers[J].Science,2001,292(5523):1897. |
| [37] | Liu C H;Zapien J A;Yao Y et al.High-density,ordered ultraviolet light-emitting ZnO nanowire arrays[J].Advanced Materials,2003,15(10):838. |
| [38] | Wang L;Chang LX;Zhao B;Yuan ZY;Shao GS;Zheng WJ .Systematic investigation on morphologies, forming mechanism, photocatalytic and photoluminescent properties of ZnO nanostructures constructed in ionic liquids[J].Inorganic Chemistry: A Research Journal that Includes Bioinorganic, Catalytic, Organometallic, Solid-State, and Synthetic Chemistry and Reaction Dynamics,2008(5):1443-1452. |
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