|
Vol.49, No.10, 818 ~ 823, 2011
|
| Title |
| Photoluminescence Studies of ZnO Nanorods Grown by Vapor Phase Transport |
| 김소아람 So A Ram Kim , 조민영 Min Young Cho , 남기웅 Gi Woong Nam , 김민수 Min Su Kim , 김도엽 Do Yeob Kim , 임광국 Kwang Gug Yim , 임재영 Jae Young Leem |
|
|
|
| Abstract |
| ZnO nanorods were grown on Au-coated Si substrates by vapor phase transport (VPT) at the growth temperature of 600℃ using a mixture of zinc oxide and graphite powders as source material. Au thin films with the thickness of 5 nm were deposited by ion sputtering. Temperature-dependent photoluminescence (PL) was carried out to investigate the optical properties of the ZnO nanorods. Five peaks at 3.363, 3.327, 3.296, 3.228, and 3.143 eV, corresponding to the free exciton (FX), neutral donor bound exciton (DoX), first order longitudinal optical phonon replica of free exciton (FX-1LO), FX-2LO, and FX-3LO emissions, were obtained at low-temperature (10 K). The intensity of these peaks decreased and their position was red shifted with the increase in the temperature. The FX emission peak energy of the ZnO nanorods exhibited an anomalous behavior (red-blue-red shift) with the increase in temperature. This is also known as an "S-shaped" emission shift. The thermal activation energy for the exciton with increasing temperature in the ZnO nanorods is found to be about 26.6 meV; the values of Varshni`s empirical equation fitting parameters are = 5×10(-4) eV/K, β = 350 K, and E(g)(0) = 3.364 eV. |
|
|
| Key Words |
| zinc oxide, nanostructured materials, vapor deposition, photoluminescence |
|
|
 |
|
