1 |
Könenkamp R Word R C Schlegel C Vertical nanowire light-emitting diodeAppl Phys Lett 2004 85(24)60046006. doi:10.1063/1.1836873
|
2 |
Huang M H Mao S Feick H Yan H Q Wu Y Y Kind H Weber E Russo R Yang P D Room-temperatureultraviolet nanowire nanolasersScience 2001 292(5523)18971899. doi:10.1126/science.1060367
|
3 |
Wang Z L Zincoxide nanostructures: growth, properties and applicationsJ Phys: Condens Matter 2004 16(25)829858. doi:10.1088/0953‐8984/16/25/R01
|
4 |
Huang Y Q Liu M D Zeng Y K Liu S B Progress ofstudy on ZnO thin film and its propertiesJournal of Inorganic Materials 2001 16(3)391397 (in Chinese)
|
5 |
Martin P M Good M S Johnston J W Posakony G J Bond L J Crawford S L Piezoelectricfilms for 100-MHz ultrasonic transducersThin Solid Films 2000 379(1–2)253258. doi:10.1016/S0040‐6090(00)01339‐0
|
6 |
Gordillo G Newmaterials used as optical window in thin film solar cellsSurf Rev Lett 2002 9(5&6)16751680. doi:10.1142/S0218625X02004207
|
7 |
Seelig E W Tang B Yamilov A Cao H Chang R P H Self-assembled 3D photonic crystals fromZnO colloidal spheresMater Chem Phys 2003 80(1)257263. doi:10.1016/S0254‐0584(02)00492‐3
|
8 |
Pease R F W Nanolithography and its prospects as a manufacturing technologyJ Vac Sci Technol B 1992 10(1)278285. doi:10.1116/1.586346
|
9 |
Silverman J P X-raylithography: Status, challenges, and outlook for 0.13 µm.J Vac Sci Technol B 1997 15(6)21172124. doi:10.1116/1.589231
|
10 |
Melngailis J Mondelli A A Berry III I L Mohondro R A review of ionprojection lithographyJ Vac Sci TechnolB 1998 16(3)927957. doi:10.1116/1.590052
|
11 |
Li Y Cai W P Duan G T Cao B Q Sun F Q Lu F Superhydrophobicityof 2D ZnO ordered pore arrays formed by solution-dipping templatemethodJ Colloid Interface Sci 2005 287(2)634639. doi:10.1016/j.jcis.2005.02.010
|
12 |
Sun F Q Cai W P Y Li Cao B Q Lu F Duan G T Zhang L D Morphology control and transferabilityof ordered through-pore arrays based on the electrodeposition of acolloidal monolayerAdv Mater 2004 16(13)11161121. doi:10.1002/adma.200400006
|
13 |
Wang X D Summers C J Wang Z L Large-scale hexagonal-patterned growth of aligned ZnO nanorodsfor nano-optoelectronics and nanosensor arraysNano Lett 2004 4(3)423426. doi:10.1021/nl035102c
|
14 |
Fan H J Fuhrmann B Scholz R Syrowatka F Dadgar A Krost A Zacharias M Well-orderedZnO nanowire arrays on GaN substrate fabricated via nanosphere lithographyJ Cryst Growth 2006 287(1)3438. doi:10.1016/j.jcrysgro.2005.10.038
|
15 |
Fan H J Lee W Scholz R Dadgar A Krost A Nielsch K Zacharias M Arrays of vertically alignedand hexagonally arranged ZnO nanowires: a new template-directed approachNanotech 2005 16(6)913917. doi:10.1088/0957‐4484/16/6/048
|
16 |
Fan H J Fleischer F Lee W Nielsch K Scholz R Zacharias M Gösele U Dadgar A Krost A Patterned growthof aligned ZnO nanowire arrays on sapphire and GaN layersSuperlattices Microstruct 2004 36(1–3)95105. doi:10.1016/j.spmi.2004.08.028
|
17 |
Fan H J Bertram F Dadgar A Christen J Krost A Zacharias M Self-assemblyof ZnO nanowires and the spatial resolved characterization of theirluminescenceNanotech 2004 15(11)14011404. doi:10.1088/0957‐4484/15/11/003
|
18 |
Wang X D Gao P X J Li Summers C J Wang Z L Rectangular Porous ZnO-ZnS Nanocables andZnS NanotubesAdv Mater 2002 14(23)17321735. doi:10.1002/1521‐4095(20021203)14:23<1732::AID‐ADMA1732>3.0.CO;2‐5
|
19 |
Wang Z L Novelzinc oxide nanostructures discovery by electron microscopyJournal of Physics: Conference Series 2006 26(1)16. doi:10.1088/1742‐6596/26/1/001
|
20 |
Wang Z L Song J H Piezoelectric nanogeneratorsbased on zinc oxide nanowire arraysScience 2006 312(5771)242246. doi:10.1126/science.1124005
|
21 |
Zhang H Yang D R Ji Y J Ma X Y Xu J Que D L Low temperaturesynthesis of flowerlike ZnO nanostructures by cetyltrimethylammoniumbromide-assisted hydrothermal processJPhys Chem B 2004 108(13)39553958. doi:10.1021/jp036826f
|
22 |
Vayssieres L Keis K Lindquist S E Hagfeldt A Purpose-builtanisotropic metal oxide material: 3D highly oriented microrod arrayof ZnOJ Phys Chem B 2001 105(17)33503352. doi:10.1021/jp010026s
|
23 |
Meulenkamp E A Synthesisand growth of ZnO nanoparticlesJ Phys ChemB 1998 102(29)55665572. doi:10.1021/jp980730h
|
24 |
Li W J Shi W E Yin Z W Growth habits of polar crystalsChinese Science Bulletin 1999 44(22)23882392 (in Chinese)
|
25 |
Tian Z R Voig J A t Liu J Mckenzie B Mcdermott M J Biomimetic arrays of orientedhelical ZnO nanorods and columnsJ Am ChemSoc 2002 124(44)1295412955. doi:10.1021/ja0279545
|
26 |
Tian Z R Voigt J A Liu J Mckenzie B Mcdermott M J Rodriguez M A Konishi H Xu H F Complex and oriented ZnO nanostructuresNat Mater 2003 2(12)821826. doi:10.1038/nmat1014
|
27 |
Andeen D Kim J H Lange F F Goh G K L Tripathy S Lateral epitaxial overgrowth of ZnO inwater at 90°CAdv Funct Mater 2006 16(6)799804. doi:10.1002/adfm.200500817
|
28 |
Tang Z K Wong G K L Yu P Kawasaki M Ohtomo A Koinuma H Segawa Y Room-temperature ultravioletlaser emission from self-assembled ZnO microcrystallite thin filmsAppl Phys Lett 1998 72(25)32703272. doi:10.1063/1.121620
|
29 |
Cho S Ma J Kim Y Sun Y Wong G K L Ketterson J B Photoluminescenceand ultraviolet lasing of polycrystalline ZnO thin films preparedby the oxidation of the metallic ZnApplPhys Lett 1999 75(18)27612763. doi:10.1063/1.125141
|
30 |
Xu P S Sun Y M Shi C S Xu F Q Pan H B Electronic structure of ZnO and its defectsScience in China(A) 2001 44(9)11741181
|
31 |
Fu Z X Guo C X Lin B X Liao G H Cathodoluminescenceof ZnO filmsChin Phys Lett 1998 15(6)457459
|
32 |
Zhang D H Wang Q P Xue Z Y Ultra violet photoluminescenc of ZnO films on differentsubstratesActa Physica Sinica 2003 52(6)14841487
|
33 |
Vanheusden K Warren W L Seager C H Tallant D R Voigy J A Gnade B E Mechanismsbehind green photoluminescence in ZnO phosphor powdersJ Appl Phys 1996 79(10)79837990. doi:10.1063/1.362349
|
34 |
Kang H S Kang J S Kim J W Lee S Y Annealing effecton the property of ultraviolet and green emissions of ZnO thin filmsJ Appl Phys 2004 95(3)12461250. doi:10.1063/1.1633343
|