Synthesis and Properties of High-Quality InN Nanowires and Nanonetworks

Z. Cai; S. Garzon; M.V.S. Chandrashekhar; R.A. Webb; G. Koley

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Synthesis and Properties of High-Quality InN Nanowires and Nanonetworks

机译：高质量InN纳米线和纳米网络的合成与性能

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We report on the growth of high-quality InN nanowires by the vapor–liquid–solid mechanism at rates of up to 30 μm/h. Smooth and horizontal nanowire growth has been achieved only with nanoscale catalyst patterns, while large-area catalyst coverage resulted in uncontrolled and three-dimensional growth. The InN nanowires grow along the [110] direction with diameters of 20 to 60 nm and lengths of 5 to 15 μm. The nanowires bend spontaneously or get deflected from other nanowires at angles that are multiples of 30°, forming nanonetworks. The gate-bias-dependent mobility of the charge carriers ranges from 55 cm2/V s to 220 cm2/V s, and their concentration is ～1018 cm?3.

机译：我们报告了通过气-液-固机理以高达30μm/ h的速度生长高质量InN纳米线的过程。仅使用纳米级催化剂图案才能实现平滑和水平的纳米线生长，而大面积催化剂覆盖导致不受控制的三维生长。 InN纳米线沿[110]方向生长，直径为20至60 nm，长度为5至15μm。纳米线以30°的倍数自发弯曲或与其他纳米线发生偏转，从而形成纳米网络。载流子与栅极偏置的迁移率范围为55 cm2 / V s至220 cm2 / V s，其浓度为〜1018 cm？3 。

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来源
《Journal of Electronic Materials》 |2008年第5期|585-592|共8页
作者
Z. Cai; S. Garzon; M.V.S. Chandrashekhar; R.A. Webb; G. Koley;
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作者单位

Department of Electrical Engineering and USC Nanocenter University of South Carolina 301 South Main Street 3A12 Swearingen Center Columbia SC 29208 USA;

Department of Physics and Astronomy and USC Nanocenter University of South Carolina 1212 Greene Street 125 Sumwalt College Columbia SC 29208 USA;

School of Electrical and Computer Engineering Cornell University Ithaca NY 14853 USA;

Department of Physics and Astronomy and USC Nanocenter University of South Carolina 1212 Greene Street 125 Sumwalt College Columbia SC 29208 USA;

Department of Electrical Engineering and USC Nanocenter University of South Carolina 301 South Main Street 3A12 Swearingen Center Columbia SC 29208 USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
InN nanowires; CVD growth; nanonetworks; mobility;

机译：InN纳米线;CVD生长;纳米网络;迁移率;

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专利

1. Synthesis and Properties of High-Quality InN Nanowires and Nanonetworks [J] . Z. CAI, S. GARZON, M.V.S. CHANDRASHEKHAR, Journal of Electronic Materials . 2008,第5期

机译：高质量InN纳米线和纳米网络的合成和性能
2. Synthesis, optical and transport properties of single-crystal N-deficient InN nanowires [J] . Song B, Jian JK, Wang G, Physica, E. Low-dimensional systems & nanostructures . 2008,第3期

机译：单晶缺氮InN纳米线的合成，光学和传输性质
3. Synthesis and optical properties of InN nanowires and nanotubes [J] . H. Y. Xu, Z. Liu, X. T. Zhang, Applied Physics Letters . 2007,第11期

机译：InN纳米线和纳米管的合成及光学性质
4. Synthesis and Characterization of High Quality InN Nanowires and Nano-networks [C] . Zhihua Cai, Samir Garzon, Richard A. Webb, MRS fall meeting . 2008

机译：高质量InN纳米线和纳米网络的合成与表征
5. Synthesis, properties and applications of indium nitride nanowires and nanonetworks. [D] . Cai, Zhihua. 2008

机译：氮化铟纳米线和纳米网络的合成，性质和应用。
6. InN Nanowires: Growth and Optoelectronic Properties [O] . Raffaella Calarco 2012

机译：InN纳米线：生长和光电特性
7. The Optimized Synthesis of Copper Nanowire for High-quality and Fabrication of Core-Shell Nanowire [O] . Suhyun Lee 2000

机译：铜纳米线的优化合成核心壳纳米线的高质量和制造

Synthesis and Properties of High-Quality InN Nanowires and Nanonetworks

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