ZnO nanowalls and nanocolumns grown by metalorganic chemical vapor deposition

被引:0
|
作者
Kim, Sang-Woo [1 ]
Fujita, Shizuo [2 ]
Yi, Min-Su [3 ]
Kim, Han-Ki [1 ]
Yang, Beelyong [1 ]
Yoon, Dae Ho [4 ]
机构
[1] Kumoh Natl Inst Technol, Sch Adv Mat & Syst Engn, 1 Yangho Dong, Gumi 730701, Gyeongbuk, South Korea
[2] Kyoto Univ, Int Innovat Ctr, Kyoto 6158510, Japan
[3] Sangju Natl Univ Sangju, Dept Mat Sci & Engn, Sangju 742711, Gyeongbuk, South Korea
[4] Sungkyunkwan Univ, Dept Adv Mat Engn, Suwon 440746, South Korea
来源
ADVANCES IN NANOMATERIALS AND PROCESSING, PTS 1 AND 2 | 2007年 / 124-126卷
关键词
ZnO; nanowall; nanocolumn; MOCVD; Si3N4/Si substrates; hydrogen;
D O I
10.4028/www.scientific.net/SSP.124-126.77
中图分类号
TB3 [工程材料学];
学科分类号
0805 ; 080502 ;
摘要
ZnO nanowalls and nanocolumns were synthesized on Si3N4 (50 nm)/Si (001) substrates at low growth temperature (350 and 400 degrees C) by metalorganic chemical vapor deposition (MOCVD) with no metal catalysts. ZnO nanowalls with extremely small wall thicknesses below 10 nm and nanocolumns with diameters over 100 nm were formed on the Si3N4/Si substrates relying on MOCVD-growth temperature. It was found that ZnO nanowalls have a strong c-axis preferred orientation with a hexagonal structure, while ZnO nanocolumns have a weak c-axis preferred orientation with broken stacking orders in synchrotron x-ray scattering experiments. In addition, strong free-exciton emission from the ZnO nanowalls was clearly observed in photo luminescence measurements. On the other hand, we could not observe any emission bands from the ZnO nanocolumn samples.
引用
收藏
页码:77 / +
页数:2
相关论文
共 50 条
  • [31] Properties of In-Doped ZnO Films Grown by Metalorganic Chemical Vapor Deposition on GaN(0001) Templates
    Ben-Yaacov, Tammy
    Ive, Tommy
    Van de Walle, Chris G.
    Mishra, Umesh K.
    Speck, James S.
    Denbaars, Steven P.
    JOURNAL OF ELECTRONIC MATERIALS, 2010, 39 (05) : 608 - 611
  • [32] Enhancement-mode ZnO thin-film transistor grown by metalorganic chemical vapor deposition
    Jo, Jungyol
    Seo, Ogweon
    Choi, Hyoshik
    Lee, Byeonggon
    APPLIED PHYSICS EXPRESS, 2008, 1 (04) : 0412021 - 0412023
  • [33] Evidence for multiple chemical ordering in AlGaN grown by metalorganic chemical vapor deposition
    Ruterana, P
    Jores, GD
    Laügt, M
    Omnes, F
    Bellet-Amalric, E
    APPLIED PHYSICS LETTERS, 2001, 78 (03) : 344 - 346
  • [34] Arsenic incorporation in GaN layers grown by metalorganic chemical vapor deposition
    Na, Hyunseok
    JOURNAL OF CRYSTAL GROWTH, 2010, 312 (12-13) : 2019 - 2024
  • [35] Low resistive InGaN film grown by metalorganic chemical vapor deposition
    Shrestha, Niraj Man
    Chauhan, Prerna
    Wong, Yuen-Yee
    Li, Yiming
    Samukawa, Seiji
    Chang, Edward Yi
    VACUUM, 2020, 171
  • [36] CARBON INCORPORATION IN ZNSE GROWN BY METALORGANIC CHEMICAL VAPOR-DEPOSITION
    GIAPIS, KP
    JENSEN, KF
    POTTS, JE
    PACHUTA, SJ
    APPLIED PHYSICS LETTERS, 1989, 55 (05) : 463 - 465
  • [37] ZnO nanostructures synthesized with/without catalyst by metalorganic chemical vapor deposition
    Jeong, Seong Hun
    Yoo, Dong. -Geun.
    Park, Bit Na
    Boo, Jin-Hyo
    IEEE NMDC 2006: IEEE NANOTECHNOLOGY MATERIALS AND DEVICES CONFERENCE 2006, PROCEEDINGS, 2006, : 680 - 681
  • [38] Characterization of AlGaN/GaN heterostructures grown by metalorganic chemical vapor deposition
    Eiting, CJ
    Lambert, DJH
    Kwon, HK
    Shelton, BS
    Wong, MM
    Zhu, TG
    Dupuis, RD
    PHYSICA STATUS SOLIDI B-BASIC RESEARCH, 1999, 216 (01): : 193 - 197
  • [39] Residual stress in GaN films grown by metalorganic chemical vapor deposition
    Chen, Y
    Gulino, DA
    Higgins, R
    JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A, 1999, 17 (05): : 3029 - 3032
  • [40] INGAAS/INP PHOTODIODES GROWN BY METALORGANIC CHEMICAL VAPOR-DEPOSITION
    DUPUIS, RD
    CAMPBELL, JC
    VELEBIR, JR
    JOURNAL OF CRYSTAL GROWTH, 1986, 77 (1-3) : 598 - 605
12345