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Gallium arsenide nanowires formed by au-assisted metal organic chemical vapor deposition: effect of growth temperature

机译：辅助金属有机化学气相沉积形成砷化镓纳米线：生长温度的影响

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We have investigated the growth of gallium arsenide (GaAs) nanowires as a function of temperatures in metal organic chemical vapor deposition (MOCVD) to establish the mechanisms that govern wire growth and to optimize growth conditions. The growth follows the vapor-liquid-solid method by applying nanoparticle gold colloid as a catalyst to forms a eutectic liquid alloy with the substrate. The semi insulating undoped (111)B GaAs was first dipped in the poly-L-lysine solution before 30nm gold colloid dropped on the substrate surface. Growth process in the MOCVD system were done at temperatures between 380 and 600ºC with growth time set is 30 min. All the grown samples were analyzed using a field emmission scanning electron microscope (FE-SEM) and scanning electron microscopy (SEM). With increasing temperature the nanowire height increases but leads to significant tapering of the nanowire due to competing growth at the (111) substrate surface. At low temperatures nanowires grown are cylindrical-shaped with diameter wires between 50 and 100 nm

机译：我们已经研究了砷化镓（GaAs）纳米线的生长与金属有机化学气相沉积（MOCVD）中温度的关系，以建立控制线生长的机制并优化生长条件。该生长遵循汽-液-固方法，通过应用纳米粒子金胶体作为催化剂与基底形成共晶液态合金。首先将半绝缘的未掺杂（111）B GaAs浸入聚L-赖氨酸溶液中，然后将30nm金胶体滴在基板表面上。 MOCVD系统中的生长过程是在380至600ºC的温度下完成的，生长时间设置为30分钟。使用场发射扫描电子显微镜（FE-SEM）和扫描电子显微镜（SEM）分析所有生长的样品。随着温度的升高，纳米线的高度增加，但是由于在（111）衬底表面上的竞争性生长，导致纳米线明显变细。在低温下，生长的纳米线为圆柱形，直径在50至100 nm之间

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Muhammad Rosnita; Othaman Zulkafli; Wahab Yussof; Sakrani Samsudi; W. Ahmad W. Faizal; Nazri Mohd.;
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年度 2009
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正文语种 en
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1. Gallium Arsenide Nanowires Formed by Au-assisted Metal-organic Chemical Vapor Deposition: Effect of Growth Temperature [J] . Rosnita Muhammad, Zulkafli Othaman, Yussof Wahab, Modern Applied Science . 2009,第7期

机译：金辅助金属有机化学气相沉积形成的砷化镓纳米线：生长温度的影响。
2. Growth and optical properties of InP nanowires formed by Au-assisted metalorganic chemical vapor deposition: Effect of growth temperature [J] . Jingwei Guo, Hui Huang, Xiaomin Ren, Journal of Vacuum Science & Technology . 2011,第3期

机译：金辅助金属有机化学气相沉积形成InP纳米线的生长和光学性质：生长温度的影响
3. Gallium Arsenide nanowires for electrode application in solid oxide fuel cell grown using metal organic chemical vapor deposition [J] . Muhammad R., Wahab Y., Ibrahim Z., International journal of hydrogen energy . 2017,第14期

机译：砷化镓纳米线用于使用金属有机化学气相沉积法生长的固体氧化物燃料电池中的电极
4. InP nanowires formed by Au-assisted Metalorganic Chemical Vapor Deposition: Effect of growth temperature [C] . Jingwei Guo, Hui Huang, Xian Ye, The 2nd international conference on nanomechanics amp; nanocomposites: program amp; abstracts. . 2010

机译：金辅助金属有机化学气相沉积形成的InP纳米线：生长温度的影响
5. The Growth and Characterization of Gallium Arsenide Nanowire Structures by Metal Organic Chemical Vapor Deposition [D] . Minutillo, Nicholas G. 2014

机译：金属有机化学气相沉积砷化镓纳米线结构的生长和表征
6. Catalyst-Assisted Large-Area Growth of Single-Crystal β-Ga2O3 Nanowires on Sapphire Substrates by Metal–Organic Chemical Vapor Deposition [O] . Chunyang Jia, Dae-Woo Jeon, Jianlong Xu, 2020

机译：金属有机化学气相沉积法在蓝宝石衬底上催化剂辅助大面积生长单晶β-Ga2O3纳米线
7. Gallium Arsenide Nanowires Formed by Au-assisted Metal-organic Chemical Vapor Deposition: Effect of Growth Temperature [O] . Mohd Nazri, W. Faizal W. Ahmad, Samsudi Sakrani, 2009

机译：金辅助金属有机化学气相沉积形成的砷化镓纳米线：生长温度的影响。
8. New Gallium Precursors for the Formation of High Purity Gallium Arsenide by Metal Organic Vapor Phase Deposition [R] . Schram, E. P. 1984

机译：新型镓前驱体通过金属有机气相沉积形成高纯度砷化镓

Gallium arsenide nanowires formed by au-assisted metal organic chemical vapor deposition: effect of growth temperature

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