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http://dx.doi.org/10.3740/MRSK.2005.15.11.741

Effects of Substrate Temperature on the Microstructure and Photoluminescence Properties of ZnO Thin Films by Atomic Layer Deposition  

Lim, Jong-Min (Department of Materials Science and Engineering, Inha University)
Lee, Chong-Mu (Department of Materials Science and Engineering, Inha University)
Publication Information
Korean Journal of Materials Research / v.15, no.11, 2005 , pp. 741-744 More about this Journal
Abstract
Atomic layer deposition (ALD) is a very promising deposition technique for ZnO thin films. However, there have been very few reports on ZnO grown by ALD. Effects of substrate temperature in both ALD and post annealing on the microstructure and PL properties of ZnO thin films were investigated using X-ray diffraction, photoluminescence, and scanning electron microscopy. The temperature window of ALD is found to be between $130-180^{\circ}C$. The growth rate of ZnO thin film increases as the substrate temperature increases in the temperature range except the temperature window. The crystal quality depends most strongly on the substrate temperature among all the growth parameters of ALD. The crystallinity of the film is improved by increasing the growth thine per ALD cycle or doing post-annealing treatment. The grain size of the film tends to increase and the grain shape tends to change from a worm-like longish shape to a round one as the annealing temperature increases from $600^{\circ}C\;to\;1,000^{\circ}C$.
Keywords
ZnO thin films; atomic layer deposition; substrate temperature microstructure; photoluminescence;
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1 J. Lim, K. Shin, H. W. Kim and C. Lee, Thin Solid Films, 475, 256 (2005)   DOI   ScienceOn
2 A. Yamada, B. Sang and M. Konagai, Appl. Surf. Sci., 112, 216 (1997)   DOI   ScienceOn
3 E. B. Yousfi, J. Fouache and D. Lincot, Appl. Surf. Sci., 153, 223 (2000)   DOI   ScienceOn
4 K. Saito, Y. Watanabe, K. Takahashi, T. Matsuzawa, B. Sang and M. Kongai, Solar Energy Mater. Solar Cells, 49, 187 (1977)   DOI   ScienceOn
5 J. Lim, K. Shin, H. W. Kim and C. Lee, Mater. Sci. Eng., B 107, 301 (2004)   DOI   ScienceOn
6 J. Narayan, K. Dovidenko, A. K. Sharma and S. Oktyabrsky, J. Appl. Phys., 84, 2597 (1998)   DOI   ScienceOn
7 S. A. Studenikin, M. Cocivera, W. Kellner and H. Pascher, J. of luminescence, 91, 223 (2000)   DOI   ScienceOn
8 B. Sang, A. Yamada and M. Kongai, Solar Energy Mater. Solar Cells, 49, 19 (1977)   DOI   ScienceOn
9 D.C. Reynolds, D. C. Look and B. Jogai, Solid State Commun., 99, 873 (1996)   DOI   ScienceOn
10 X. Xu, C. Guo, Z. Qi, H. Liu, J. Xu, C. Shi, C. Chong, W. Huang, Y. Zhou and C. Xu, Chem. Phys. Lett., 364, 57 (2002)   DOI   ScienceOn
11 Y. Nakata, T. Okada and M. Maeda, Appl, Surf. Sci., 197198, 368 (2002)   DOI   ScienceOn
12 Q. P. Wang, D. H. Zhang, Z. Y. Xue and X. T. Hao, Appl. Surf. Sci., 201, 123 (2002)   DOI   ScienceOn