Catalyst-free GaN Nanowire Growth andOptoelectronic Characterization

机译：无催化剂GaN纳米线生长型和电子表征

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We discuss the present state-of-the-art concerning the growth mechanism, optical luminescence and electrical properties for GaN nanowires grown with catalyst-free molecular beam epitaxy. These nanowires are essentially defect-free and display long photoluminescence lifetimes and carrier mobilities relative to epitaxially grown GaN films. The exclusion of crystalline defects comes from the ease with which strain-relieving dislocations can reach the sidewalls and terminate. The growth mechanism is based on variations in Ga sticking coefficients and surface energies of the sidewall planes and end facet planes. With control of the nucleation process through selective epitaxy on patterned substrates, a high degree of diameter, length and position control can be achieved. Common difficulties with interpretation of optical and electrical data with regard to internal quantum efficiency and mobility are also addressed.

机译：我们讨论了用催化剂的分子束外延生长的GaN纳米线的生长机制，光学发光和电性能的现有技术。这些纳米线基本上是无缺陷的并且显示相对于外延生长的GaN薄膜的长光发光寿命和载流子迁移率。晶体缺陷排除来自菌株缓解脱位可以到达侧壁并终止的易容易性。增长机制基于侧壁平面和端面平面的GA粘附系数和表面能的变化。通过在图案化基板上的选择性外延对成核过程，可以实现高度直径，长度和位置控制。还解决了具有内部量子效率和移动性的光学和电气数据的常见困难。

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《SPIE Conference on Nanoepitaxy: Homo- and Heterogeneous Synthesis, Characterization, and Device Integration of Nanomaterials》|2010年||共9页
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Kris A. Bertness; Norman A. Sanford; John B. Schlager;
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中图分类 N-532;
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GaN nanowires; molecular beam epitaxy; photoluminescence; growth mechanism;

机译：GaN纳米线;分子束外延;光致发光;生长机制;

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4. Catalyst-free GaN Nanowire Growth andOptoelectronic Characterization [C] . Kris A. Bertness, Norman A. Sanford, John B. Schlager SPIE Conference on Nanoepitaxy: Homo- and Heterogeneous Synthesis, Characterization, and Device Integration of Nanomaterials . 2010

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机译：无催化剂的GaN纳米线生长和光电特性

Catalyst-free GaN Nanowire Growth andOptoelectronic Characterization

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