| Synthesis and Characterization of ZnO Nanowires |
| |
| 作者姓名: | Huang Michael Hsuan-Yi Mao Samue Henning Feick Hennes Kind Richard Russo Eicke Weber |
| |
| 作者单位: | Department of Chemistry,University of California,Department of Chemistry,National Ting Hua University,Hsinchu,Taiwan,Environmental Energy Technology Division,Materials Science Division,Lawrence Berkeley National Laboratory,Berkeley,CA 94720,USA,Department of Chemistry,University of California,Environmental Energy Technology Division,Materials Science Division,Lawrence Berkeley National Laboratory,Berkeley,CA 94720,USA |
| |
| 基金项目: | Supported by the Office of Science,Basic Energy Sciences,Division of Materials Science of the
U.S. Department of Energy under contract DE-AC03-76SF0098. |
| |
| 摘 要: | Zinc oxide is a wide bandgap (3.37 eV) semiconductor with a hexagonal wurtzite crystal structure. ZnO prepared in nanowire form may be used as a nanosized ultraviolet light-emitting source. In this study, ZnO nanowires were prepared by vapor-phase transport of Zn vapor onto gold-coated silicon substrates in a tube furnace heated to 900 ?C. Gold serves as a catalyst to capture Zn vapor during nanowire growth. Size control of ZnO nanowires has been achieved by varying the gold film thickness…
|
Synthesis and Characterization of ZnO Nanowires |
| |
| Huang Michael Hsuan-Yi,Mao Samue,Henning Feick,Hennes Kind,Richard Russo,Eicke Weber.Synthesis and Characterization of ZnO Nanowires[J].Chinese Journal of Synthetic Chemistry,2004,12(Z1). |
| |
| Authors: | Huang Michael Hsuan-Yi Mao Samuel Henning Feick Yan Haoquan Wu Yiying Hennes Kind Richard Russo Eicke Weber Yang Peidong |
| |
| Abstract: | Zinc oxide is a wide bandgap (3.37 eV) semiconductor with a hexagonal wurtzite crystal structure. ZnO prepared in nanowire form may be used as a nanosized ultraviolet light-emitting source. In this study, ZnO nanowires were prepared by vapor-phase transport of Zn vapor onto gold-coated silicon substrates in a tube furnace heated to 900 C. Gold serves as a catalyst to capture Zn vapor during nanowire growth.Size control of ZnO nanowires has been achieved by varying the gold film thickness, using fine gold clusters, or tuning other growth conditions. Nanowire diameters ranging from 20 - 200 nm and lengths between 2 - 40 μm can be made. Structural characterization of the nanowires was mainly performed using powder X-ray diffractometry, scanning and transmission electron microscopy. Orientational control of ZnO nanowires can be achieved by growing the nanowires on sapphire substrates. Nearly perfect lattice match between the (002) c-axis growth of ZnO nanowires and the (110) a-plane surface of sapphire substrate allows vertical growth of ZnO nanowires. Fabrication of patterned ZnO nanowire array was then made by patterning the gold layer on the sapphire substrates.Optical characterization of the ZnO nanowires using a He-Cd laser (325 nm) shows that the nanowires possess a strong emission band around 375 - 380 nm. Room temperature power-dependent photoluminescence study using a Nd:YAG laser (266 nm, 3-ns pulse width) shows that the nanowires exhibit lasing emission property. This is the first nanowire system displaying such phenomenon. |
| |
| Keywords: | nanowires zinc oxide |
| 本文献已被 CNKI 万方数据 等数据库收录! |
