Complex and oriented ZnO nanostructures
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Huifang Xu | Mark A. Rodriguez | Jun Liu | Huifang Xu | J. Voigt | B. McKenzie | H. Konishi | Hiromi Konishi | Z. Tian | Zhengrong R. Tian | James A. Voigt | Bonnie Mckenzie | Matthew J. Mcdermott | Mark A. Rodriguez | Jun Liu | M. McDermott | Matthew J. McDermott | Zhengrong R. Tian | M. Rodriguez
[1] R. Buchanan. Ceramic Materials for Electronics , 2018 .
[2] Huifang Xu,et al. Large oriented arrays and continuous films of TiO(2)-based nanotubes. , 2003, Journal of the American Chemical Society.
[3] Peidong Yang,et al. Low-temperature wafer-scale production of ZnO nanowire arrays. , 2003, Angewandte Chemie.
[4] David C. Martin,et al. Polymer-induced microstructure variation in zinc oxide crystals precipitated from aqueous solution , 2003 .
[5] Liang Liang,et al. Templateless assembly of molecularly aligned conductive polymer nanowires: a new approach for oriented nanostructures. , 2003, Chemistry.
[6] Preparation and cathodoluminescence of ZnO phosphor , 2003 .
[7] Tae Jae Lee,et al. Field emission from well-aligned zinc oxide nanowires grown at low temperature , 2002 .
[8] Low-temperature and catalyst-free synthesis of well-aligned ZnO nanorods on Si (100) , 2002 .
[9] Jun Liu,et al. Biomimetic arrays of oriented helical ZnO nanorods and columns. , 2002, Journal of the American Chemical Society.
[10] Liang Liang,et al. Direct assembly of large arrays of oriented conducting polymer nanowires. , 2002, Angewandte Chemie.
[11] G. Gordillo,et al. NEW MATERIALS USED AS OPTICAL WINDOW IN THIN FILM SOLAR CELLS , 2002 .
[12] E. Suh,et al. Low temperature growth and photoluminescence of well-aligned zinc oxide nanowires , 2002 .
[13] Bonamali Pal,et al. Enhanced photocatalytic activity of highly porous ZnO thin films prepared by sol-gel process , 2002 .
[14] Gyu-Chul Yi,et al. Metalorganic vapor-phase epitaxial growth of vertically well-aligned ZnO nanorods , 2002 .
[15] A. Taubert,et al. Kinetics and particle formation mechanism of zinc oxide particles in polymer-controlled precipitation from aqueous solution , 2002 .
[16] A. Taubert,et al. Polymer-assisted control of particle morphology and particle size of zinc oxide precipitated from aqueous solution , 2002 .
[17] Y. Wang,et al. Preparation and characterization of nanosized ZnO arrays by electrophoretic deposition , 2002 .
[18] M. Hon,et al. Preparation of Nanosized ZnO Arrays by Electrophoretic Deposition , 2002 .
[19] P. Yang,et al. Semiconductor Nanowire Array: Potential Substrates for Photocatalysis and Photovoltaics , 2002 .
[20] Jae Hee Song,et al. Inorganic semiconductor nanowires: rational growth, assembly, and novel properties. , 2002, Chemistry.
[21] Jih-Jen Wu,et al. LOW-TEMPERATURE GROWTH OF WELL-ALIGNED ZNO NANORODS BY CHEMICAL VAPOR DEPOSITION , 2002 .
[22] Peidong Yang,et al. Nanowire ultraviolet photodetectors and optical switches , 2002 .
[23] Xinsheng Peng,et al. Catalytic growth of semiconducting zinc oxide nanowires and their photoluminescence properties , 2002 .
[24] Sten-Eric Lindquist,et al. Three-dimensional array of highly oriented crystalline ZnO microtubes , 2001 .
[25] K. H. Chen,et al. Catalyst-free and controllable growth of SiCxNy nanorods , 2001 .
[26] K. Nakajima,et al. Advances in Crystal Growth Research , 2001 .
[27] Yiying Wu,et al. Room-Temperature Ultraviolet Nanowire Nanolasers , 2001, Science.
[28] Yicheng Lu,et al. Control of morphology and orientation of ZnO thin films grown on SiO2/Si substrates , 2001 .
[29] A. Hagfeldt,et al. Purpose-Built Anisotropic Metal Oxide Material: 3D Highly Oriented Microrod Array of ZnO , 2001 .
[30] David C. Look,et al. Recent Advances in ZnO Materials and Devices , 2001 .
[31] Zhong Lin Wang,et al. Nanobelts of Semiconducting Oxides , 2001, Science.
[32] Y. Xing,et al. Controlled growth of oriented amorphous silicon nanowires via a solid–liquid–solid (SLS) mechanism , 2001 .
[33] Huang Yan. Progress of Study on ZnO Thin Film and its Properties , 2001 .
[34] Eicke R. Weber,et al. Catalytic Growth of Zinc Oxide Nanowires by Vapor Transport , 2001 .
[35] Susan L. Crawford,et al. Piezoelectric films for 100-MHz ultrasonic transducers , 2000 .
[36] Yongxiang Li,et al. Fabrication of highly ordered ZnO nanowire arrays in anodic alumina membranes , 2000 .
[37] Qingyi Pan,et al. Grain size control and gas sensing properties of ZnO gas sensor , 2000 .
[38] G. Meng,et al. Ordered semiconductor ZnO nanowire arrays and their photoluminescence properties , 2000 .
[39] P. Huang,et al. Atomic Force Microscopy and Surface Characteristics of Iron Oxides Formed in Citrate Solutions , 1999 .
[40] M. Siegal,et al. Synthesis of large arrays of well-aligned carbon nanotubes on glass , 1998, Science.
[41] J. Gómez-Morales,et al. The Role of pH in the Adsorption of Citrate Ions on Hydroxyapatite , 1998 .
[42] S. Xie,et al. Large-Scale Synthesis of Aligned Carbon Nanotubes , 1996, Science.
[43] L. Gauckler,et al. Citric Acid—A Dispersant for Aqueous Alumina Suspensions , 1996 .
[44] X. H. Wu,et al. Control of crystal phase switching and orientation by soluble mollusc-shell proteins , 1996, Nature.
[45] P. Scales,et al. Effects of citrate adsorption on the interactions between zirconia surfaces , 1995 .
[46] A. P. Jackson,et al. The mechanical design of nacre , 1988, Proceedings of the Royal Society of London. Series B. Biological Sciences.
[47] J. Jolivet,et al. Physicochemical study of aggregation in silver colloids , 1985 .