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Self-assembly ZnO nanorod array on Al-doped ZnO nanoplate surface is directly synthesized via a simple one-step hydrothermal approach, without using any template, surfactant or pretreated substrates. The morphology of the ZnO nanostructure observed by the scanning electron microscopy shows that the thickness and size of ZnO nanoplate are 200 nm and 2 m, respectively. The diameter and the length of ZnO nanorods are respectively 150 nm and 1.5 m. A possible growth mechanism is proposed for the selective growth of ZnO nanorods array on the nanoplate substrate, which contains two stage nucleation-growth processes. Finally, the influence of Al on the photoluminescence of the sample is been discussed.
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Keywords:
- ZnO composite structure /
- self-assembly /
- photoluminescence /
- hydrothermal method
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[2] Govender K, Boyle D S, O’Brien P, Binks D, West D, Coleman D 2002 Adv. Mater. 14 1221
[3] Jiao Y, Zhu H J, Wang X F, Shi L, Liu Y, Liu L M, Li Q 2010 Cryst. Eng. Comm. 12 94
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[8] Alig ARG, Akbulut M. Golan Y, Israelachvili J 2006 Adv. Funct. Mater. 16 2127
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[18] Weissenberger D, Gerthsen D, Reiser A, Feneberg G M, Thonke K, Sauer R 2007 Appl. Phys. Lett. 91 132110
[19] Park W I, Jun Y H, Jung S W, Yi G C 2003 Appl. Phys. Lett. 82 964
[20] Reynolds D C, Look D C, Jogai B, 1998 Phys. Rev. B 57 12151
[21] Zhang X T, Xiao Z Y, Zhang W L, Gao H, Wang Y X, Liu Y C, Zhang J Y, Yu W 2003 Acta Phys. Sin. 52 0740 ( in Chinese ) [张喜田, 肖芝燕, 张伟力, 高红, 王玉玺, 刘益春, 张吉英, 许武 2003 52 0740]
[22] Deng R, Zhang X T 2008 J. Lumin. 128 1442
[23] Lin B X, Fu Z X, Jia Y B, Liao G H 2001 Acta Phys. Sin. 50 2208 ( in Chinese ) [林碧霞, 傅竹西, 贾云波, 廖桂红 2001 50 2208]
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[1] Huang M H, Mao S, Feick H, Yan H, Wu Y, Kind H, Weber E, Russo R, Yang P D 2001 Science 292 1897
[2] Govender K, Boyle D S, O’Brien P, Binks D, West D, Coleman D 2002 Adv. Mater. 14 1221
[3] Jiao Y, Zhu H J, Wang X F, Shi L, Liu Y, Liu L M, Li Q 2010 Cryst. Eng. Comm. 12 94
[4] Huang J Z, Li S S, Feng X P 2010 Acta Phys. Sin. 59 5839 ( in Chinese ) [黄金昭, 李世帅, 冯秀鹏 2010 59 5839]
[5] Wang Y, Xu X L, Xie W Y, Wang Z B, Lv L, Zhao Y L 2008 Acta Phys. Sin. 57 2537 ( in Chinese ) [ 王烨, 许小亮, 谢炜宇, 汪壮兵, 吕柳, 赵亚丽 2008 57 2537]
[6] Jiang W, Gao H, Xu L L, Ma J N, Zhang E, Wei P Lin J Q 2011 Chin.Phys.B 20 037307
[7] Shevchenko E V, Talapin D V, Murray C B, O’Brien S 2006 J. Am. Chem. Soc. 128 3620
[8] Alig ARG, Akbulut M. Golan Y, Israelachvili J 2006 Adv. Funct. Mater. 16 2127
[9] Mai H X, Zhang Y W, Si R, Yan Z G, Sun L D, You L P, Yan C H 2006 J. Am .Chem. Soc. 128 6426
[10] Kumai Y, Tsukada H, Akimoto Y, Sugimoto N, Seno Y, Fukuoka A, Ichikawa M, Inagaki S 2006 Adv. Mater. 18 760
[11] Zhang D F, Sun L D, Zhang J, Yan Z G, Yan C H 2008 Crystal Growth & Design 8 3609
[12] Liu B, Zeng H C 2004 J. Am. Chem. Soc. 126 16744
[13] Hou X F, Chen S Y, Zhang D Y, Guo X F, DingWP Chen Y 2006 Langmuir. 22 1383
[14] Liu J, Xu L L, Wei B, Lv W, Gao H, Zhang X T 2011 Cryst. Eng. Comm. 13 1283
[15] Wang M, Ye C H, Hua G M, Wang H X, Kong M G Zhang L D 2006 J. Cryst Growth. 291 334
[16] Pei L Z, Zhao H S, Tan W, Yu H Y, Chen Y W, Fan C G, Zhang Q F 2010 Physica E 42 1333
[17] Sounart T L, Liu J, Voigt J A, Huo M, Spoerke E D, McKenzie B, 2007 J. Am. Chem. Soc. 129 15786
[18] Weissenberger D, Gerthsen D, Reiser A, Feneberg G M, Thonke K, Sauer R 2007 Appl. Phys. Lett. 91 132110
[19] Park W I, Jun Y H, Jung S W, Yi G C 2003 Appl. Phys. Lett. 82 964
[20] Reynolds D C, Look D C, Jogai B, 1998 Phys. Rev. B 57 12151
[21] Zhang X T, Xiao Z Y, Zhang W L, Gao H, Wang Y X, Liu Y C, Zhang J Y, Yu W 2003 Acta Phys. Sin. 52 0740 ( in Chinese ) [张喜田, 肖芝燕, 张伟力, 高红, 王玉玺, 刘益春, 张吉英, 许武 2003 52 0740]
[22] Deng R, Zhang X T 2008 J. Lumin. 128 1442
[23] Lin B X, Fu Z X, Jia Y B, Liao G H 2001 Acta Phys. Sin. 50 2208 ( in Chinese ) [林碧霞, 傅竹西, 贾云波, 廖桂红 2001 50 2208]
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