Growth of Epitaxial Needlelike ZnO Nanowires on GaN Films
暂无分享,去创建一个
I-Cherng Chen | I. Chen | Yung-Kuan Tseng | Li-Jiaun Lin | C. Chia | Chih-Ta Chia | Chien-Yih Tsay | Li-Jiaun Lin | Hsin-Min Cheng | Chung-Yi Kwo | H. Cheng | Y. Tseng | Chien-Yih Tsay | C. Kwo | C. Tsay
[1] Kenji Hiruma,et al. Effect of one monolayer of surface gold atoms on the epitaxial growth of InAs nanowhiskers , 1992 .
[2] E. Suh,et al. Low temperature growth and photoluminescence of well-aligned zinc oxide nanowires , 2002 .
[3] R. S. Wagner,et al. VAPOR‐LIQUID‐SOLID MECHANISM OF SINGLE CRYSTAL GROWTH , 1964 .
[4] Hans-Joachim Egelhaaf,et al. Luminescence and nonradiative deactivation of excited states involving oxygen defect centers in polycrystalline ZnO , 1996 .
[5] H. Yumoto,et al. Growth mechanism of vapor liquid solid (VLS) grown indium tin oxide (ITO) whiskers along the substrate , 1999 .
[6] T. Ogino,et al. Aligned island formation using step-band networks on Si(111) , 1999 .
[7] S. Pennycook,et al. ZnO Nanoneedles Grown Vertically on Si Substrates by Non‐Catalytic Vapor‐Phase Epitaxy , 2002 .
[8] Peidong Yang,et al. Nanowire ultraviolet photodetectors and optical switches , 2002 .
[9] T. Yao,et al. MBE growth of high-quality ZnO films on epi-GaN , 2000 .
[10] M. Terrones,et al. SiC–SiOx heterojunctions in nanowires , 1999 .
[11] I. Lin,et al. Low-temperature growth of ZnO nanowires , 2003 .
[12] Phaedon Avouris,et al. Field-Effect Transistors Based on Single Semiconducting Oxide Nanobelts , 2003 .
[13] J. Merz,et al. Characterization of recombination processes in multiple narrow asymmetric coupled quantum wells based on the dependence of photoluminescence on laser intensity , 1992 .
[14] S. Fan,et al. Nanostructure of GaN and SiC Nanowires Based on Carbon Nanotubes , 1999 .
[15] Jih-Jen Wu,et al. LOW-TEMPERATURE GROWTH OF WELL-ALIGNED ZNO NANORODS BY CHEMICAL VAPOR DEPOSITION , 2002 .
[16] Xiaolong Chen,et al. Fabrication of zinc oxide nanorods , 2001 .
[17] F. C. Frank,et al. The influence of dislocations on crystal growth , 1949 .
[18] E. I. Givargizov. Fundamental aspects of VLS growth , 1975 .
[19] V. Valcárcel,et al. Development of Single‐Crystal α‐Al2O3 Fibers by Vapor–Liquid–Solid Deposition (VLS) from Aluminum and Powdered Silica , 1998 .
[20] T. Hanada,et al. ZnO and related materials: Plasma-Assisted molecular beam epitaxial growth, characterization and application , 2001 .
[21] Jih-Jen Wu,et al. Catalyst-Free Growth and Characterization of ZnO Nanorods , 2002 .
[22] Weizhuo Zhong,et al. Growth mechanism and growth habit of oxide crystals , 1999 .
[23] Eicke R. Weber,et al. Catalytic Growth of Zinc Oxide Nanowires by Vapor Transport , 2001 .
[24] Takafumi Yao,et al. A challenge in molecular beam epitaxy of ZnO: control of material properties by interface engineering , 2002 .
[25] Chia-Chun Chen,et al. Large‐Scale Catalytic Synthesis of Crystalline Gallium Nitride Nanowires , 2000 .
[26] H. Saitoh,et al. Epitaxial Growth of Zinc Oxide Whiskers by Chemical-Vapor Deposition under Atmospheric Pressure. , 1999 .
[27] Dapeng Yu,et al. Nano-scale GeO2 wires synthesized by physical evaporation , 1999 .
[28] I. Barin. Thermochemical data of pure substances , 1989 .
[29] E. D. Kolb,et al. Hydrothermal Growth of Large Sound Crystals of Zinc Oxide , 1964 .
[30] Zu Rong Dai,et al. Novel Nanostructures of Functional Oxides Synthesized by Thermal Evaporation , 2003 .