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Bismuth-induced phase control of GaAs nanowires grown by molecular beam epitaxy

机译：铋诱导的分子束外延生长的GaAs纳米线的相控

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摘要

In this work, the crystal structure of GaAs nanowires grown by molecular beam epitaxy has been tailored only by bismuth without changing the growth temperature and V/III flux ratio. The introduction of bismuth can lead to the formation of zinc-blende GaAs nanowires, while the removal of bismuth changes the structure into a 4H polytypism before it turns back to the wurtzite phase eventually. The theoretical calculation shows that it is the steadiest for bismuth to adsorb on the GaAs(111) B surface compared to the liquid gold catalyst surface and the interface between the gold catalyst droplet and the nanowire, and these adsorbed bismuth could decrease the diffusion length of adsorbed Ga and hence the supersaturation of Ga in the gold catalyst droplet. (C) 2014 AIP Publishing LLC.

机译：在这项工作中，通过分子束外延生长的GaAs纳米线的晶体结构仅通过铋定制，而没有改变生长温度和V / III通量比。铋的引入可导致锌共混GaAs纳米线的形成，而铋的去除将结构转变为4H多型性，然后最终转变为纤锌矿相。理论计算表明，与液态金催化剂表面以及金催化剂液滴与纳米线之间的界面相比，铋最稳定地吸附在GaAs（111）B表面上，并且这些吸附的铋会减小铋的扩散长度。吸附了Ga，因此金催化剂液滴中的Ga过饱和。（C）2014 AIP Publishing LLC。

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Lu, Zhenyu; Zhang, Zhi; Chen, Pingping; Shi, Suixing; Yao, Luchi; Zhou, Chen; Zhou, Xiaohao; Zou, Jin; Lu, Wei;
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年度 2014
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1. Bismuth-induced phase control of GaAs nanowires grown by molecular beam epitaxy [J] . Lu Zhenyu, Zhang Zhi, Chen Pingping, Applied Physics Letters . 2014 ,第16期

机译：铋诱导的分子束外延生长的GaAs纳米线的相控
2. Bismuth-induced phase control of GaAs nanowires grown by molecular beam epitaxy [J] . Zhenyu Lu, Zhi Zhang, Pingping Chen, Applied Physics Letters . 2014 ,第16期

机译：铋诱导的分子束外延生长的GaAs纳米线的相控
3. Controlling crystal phases in GaAs nanowires grown by Au-assisted molecular beam epitaxy [J] . Dheeraj D.L., Munshi A.M., Scheffler M., Nanotechnology . 2013 ,第1期

机译：通过金辅助分子束外延生长控制GaAs纳米线中的晶相
4. A comparative study of GaAs/AlGaAs quantum well infrared photodetectors grown by molecular beam epitaxy and metal organic vapour phase epitaxy [C] . Johnston, M.B., Dao, . 1999

机译：分子束外延和金属有机气相外延生长的GaAs / AlGaAs量子阱红外光电探测器的比较研究
5. Bandgap Tuning of GaAs/GaAsSb(N) Core-Shell Nanowires Grown by Molecular Beam Epitaxy [D] . Kasanaboina, Pavan Kumar. 2016

机译：通过分子束外延生长的GaAs / Gaassb（N）核心壳纳米线的带隙调谐
6. Molecular beam epitaxy and properties of GaAsBi/GaAs quantum wells grown by molecular beam epitaxy: effect of thermal annealing [O] . Hajer Makhloufi, Poonyasiri Boonpeng, Simone Mazzucato, 2014

机译：分子束外延生长的分子束外延和GaAsBi / GaAs量子阱的性质：热退火的影响
7. Molecular beam epitaxy and properties of GaAsBi/GaAs quantum wells grown by molecular beam epitaxy: effect of thermal annealing [O] . Hajer Makhloufi, Poonyasiri Boonpeng, Simone Mazzucato, 2014

机译：分子束外延生长的分子束外延和GaAsBi / GaAs量子阱的性质：热退火的影响
8. Bandgap Tuning of GaAs/GaAsSb Core-Shell Nanowires Grown by Molecular Beam Epitaxy. [R] . Kasanaboina, P. K., Ojha, S. K., Sami, S. U., 2015

机译：用分子束外延生长Gaas / Gaassb核壳纳米线的带隙调谐。

Bismuth-induced phase control of GaAs nanowires grown by molecular beam epitaxy

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