本文提出了一种制备ZnO纳米碟的简单方法-空气气氛条件下,在坩埚中直接蒸发Zn粉,通过控制Zn源的质量和蒸发温度,在硅(100)衬底上获得了直径为微米量级和厚度几百纳米的ZnO碟.XRD谱表明样品为纯相的纤锌矿结构ZnO,扫描电子显微镜(SEM)照片给出了样品的形貌,证明其尺寸与锌蒸发温度密切相关.室温光致发光谱中存在510nm处较强的缺陷发光峰和380nm较弱的激子发光峰.EDS谱表明样品中仅含氧和锌元素,其原子的含量比为46.3∶53.7,存在较多的氧空位,进一步证实了荧光光谱的结果.
参考文献
| [1] | Zheng MJ.;Zhang LD.;Li GH.;Shen WZ. .Fabrication and optical properties of large-scale uniform zinc oxide nanowire arrays by one-step electrochemical deposition technique[J].Chemical Physics Letters,2002(1/2):123-128. |
| [2] | J. Q. Hu;Y. Bando .Growth and optical properties of single-crystal tubular ZnO whiskers[J].Applied physics letters,2003(9):1401-1403. |
| [3] | Wang R.C;Liu C.P;Huang J.L;Chen S.J .Growth and Field Emission Properties of Single-Crystalline ZnO Conic Nanotubes Synthesized At low Temperature[J].Nanotechnology,2006,17:753-757. |
| [4] | Kong X.Y;Ding Y;Yang R.S;Wang Z.L .Single Crystal Nanorings Formed by Epitaxial Self-Coiling of Polar Nanobelts[J].Science,2004,303:1348-1351. |
| [5] | Hu JQ.;Li Q.;Meng XM.;Lee CS.;Lee ST. .Thermal reduction route to the fabrication of coaxial Zn/ZrO nanocables and ZnO nanotubes[J].Chemistry of Materials,2003(1):305-308. |
| [6] | Liu D.F;Xiang Y.J;Zhang Z.X;Wang J.X, Gao Y,Song L,Liu L.F,Dou X.Y,Zhao X.W,Luo S.D,Wang C.Y,Zhou W.Y,Wang G,and Xie S.S .Growth of ZnO hexagonal nanoprisms[J].Nanotechnology,2005,16:2665. |
| [7] | G. Q. Ding;W. Z. Shen;M. J. Zheng;D. H. Fan .Synthesis of ordered large-scale ZnO nanopore arrays[J].Applied physics letters,2006(10):103106-1-103106-3-0. |
| [8] | Yousheng Zhang;Lisheng Wang;Xiaohua Liu;Yunjie Yan;Changqiang Chen;Jing Zhu .Synthesis of Nano/Micro Zinc Oxide Rods and Arrays by Thermal Evaporation Approach on Cylindrical Shape Substrate[J].The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical,2005(27):13091-13093. |
| [9] | J. Y. Lao;J. Y. Huang;D. Z. Wang;Z. F. Ren .ZnO Nanobridges and Nanonails[J].Nano letters,2003(2):235-238. |
| [10] | Xu F;Yu K;Shi MR;Wang QY;Zhu ZQ;Huang SH .Growth, photoluminescence, and field emission of hierarchical ZnO nanostructures[J].Journal of nanoscience and nanotechnology,2006(12):3794-3798. |
| [11] | Won Il Park;Gyu-Chul Yi .Electroluminescence in n-ZnO Nanorod Arrays Vertically Grown on p-GaN[J].Advanced Materials,2004(1):87-90. |
| [12] | Huang M.H;Man S;Feick H;Yan H, Wu Y, Kind H, Weber E, Russo R, and Yang P.D .Room Temperature Ultraviolet Nanowire Nanolasers[J].Science,2001,292(5523):1897-1899. |
| [13] | LiuC.H;ZapienJ.A;YaoY;MengX.M, Lee C.S, Fan S.S, Lifshitz Y, Lee S.T .High density,ordered ultraviolet light-emitting ZnO nanowire arrays[J].Advanced Materials,2003,15(10):838-841. |
| [14] | Johnson J.C;Yan H.Q;Schaller R.D;Haber L.H, Saykally R.J,and Yang P.D .Single Nanowire Lasers[J].Journal of Physical Chemistry B,2001,105(46):11387-11390. |
| [15] | Justin C. Johnson;Kelly P. Knutsen;Haoquan Yan;Matt Law;Yanfeng Zhang;Peidong Yang;Richard J. Saykally .Ultrafast Carrier Dynamics in Single ZnO Nanowire and Nanoribbon Lasers[J].Nano letters,2004(2):197-204. |
| [16] | Wang ZL;Song J .Piezoelectric nanogenerators based on zinc oxide nanowire arrays.[J].Science,2006(5771):242-246. |
| [17] | Wang H.T;Kang B.S;Ren F;Tien L.C, Sadik P.W, Norton D.P, Pearton S.J, Lin J.S .Hydrogen-selective sensing at room tempeirature with ZnO nanorods[J].Applied Physics Letters,2005,86:243503. |
| [18] | Xue XY;Chen YJ;Wang YG;Wang TH .Synthesis and ethanol sensing properties of ZnSnO3 nanowires[J].Applied physics letters,2005(23):3101-1-3101-3-0. |
| [19] | J. Y. Lao;J. Y. Huang;D. Z. Wang;Z. F. Ren .ZnO Nanobridges and Nanonails[J].Nano letters,2003(2):235-238. |
| [20] | Liu J;Zhang Y;Junjie Qi;Huang Y.H, et al.In doped zinc oxide dodecagonal nanometer thick disks[J].Materials Letters,2006,60:2623-2626. |
| [21] | 刘娟,张跃,齐俊杰,贺建,黄运华,张晓梅.掺铟氧化锌纳米盘的制备、结构及性质研究[J].物理化学学报,2006(01):38-42. |
| [22] | Xu CX;Sun XW;Dong ZL;Yu MB .Zinc oxide nanodisk[J].Applied physics letters,2004(17):3878-3880. |
| [23] | Ahsanulhaq Q;Kim J.H;Reddy N.K;Hahn Y.B .Growth mechanism and characterization of rose-like microspheres and hexagonal microdisks of ZnO grown by surfactant-free solution method[J].Journal of Industrial and Engineering Chemistry,2008,14:578-583. |
| [24] | Yu DS;Chen YJ;Li BJ;Chen XD;Zhang MQ;Zhao F;Ren S .Structural and lasing characteristics of ultrathin hexagonal ZnO nanodisks grown vertically on silicon-on-insulator substrates[J].Applied physics letters,2007(9):91116-1-91116-3-0. |
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