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Increased Photoconductivity Lifetime in GaAs Nanowires by Controlled n-Type and p-Type Doping.

机译：通过控制n型和p型掺杂可以延长GaAs纳米线的光电导寿命。

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Controlled doping of GaAs nanowires is crucial for the development of nanowire-based electronic and optoelectronic devices. Here, we present a non-contact method based on time resolved terahertz photoconductivity for assessing n and p type doping efficiency in nanowires. Using this technique, we measure extrinsic electron and hole concentrations in excess of 10(18)cm(-3) for GaAs nanowires with n-type and p-type doped shells. Furthermore, we show that controlled doping can significantly increase the photoconductivity lifetime of GaAs nanowires by over an order of magnitude: from 0.13ns in undoped nanowires to 3.8ns and 2.5ns in n-doped and p-doped nanowires respectively. Thus, controlled doping can be used to reduce the effects of parasitic surface recombination in optoelectronic nanowire devices, which is promising for nanowire devices such as solar cells and nanowire lasers.

机译：GaAs纳米线的受控掺杂对于基于纳米线的电子和光电设备的开发至关重要。在这里，我们提出了一种基于时间分辨的太赫兹光电导率的非接触方法，用于评估纳米线中n和p型掺杂效率。使用这种技术，我们测量具有n型和p型掺杂壳的GaAs纳米线的外部电子和空穴浓度超过10（18）cm（-3）。此外，我们表明，受控掺杂可以显着增加GaAs纳米线的光电导寿命一个数量级：从未掺杂纳米线的0.13ns到n掺杂纳米线和p掺杂纳米线的3.8ns和2.5ns。因此，可控掺杂可用于减少光电纳米线器件中寄生表面复合的影响，这对于诸如太阳能电池和纳米线激光器之类的纳米线器件很有希望。

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作者
Boland, JL; Casadei, A; Tutuncuoglu, G; Matteini, F; Davies, CL; Jabeen, F; Joyce, HJ; Herz, LM; Fontcuberta I Morral, A; Johnston, MB;
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年度 2016
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1. Increased Photoconductivity Lifetime in GaAs Nanowires by Controlled n-Type and p-Type Doping [J] . Boland Jessica L., Casadei Alberto, Tuetuencueoglu Gozde, ACS nano . 2016,第4期

机译：通过控制n型和p型掺杂延长了GaAs纳米线的光电导寿命
2. A Roadmap for Controlled and Efficient n-Type Doping of Self-Assisted GaAs Nanowires Grown by Molecular Beam Epitaxy [J] . Orru Marta, Repiso Eva, Carapezzi Stefania, Advanced Functional Materials . 2016,第17期

机译：分子束外延生长的自控GaAs纳米线的受控和高效n型掺杂的路线图
3. Controllable p-type doping of GaAs nanowires during vapor-liquid-solid growth [J] . Christoph Gutsche, Ingo Regolin, Kai Blekker, Journal of Applied Physics . 2009,第1期

机译：气液固生长过程中GaAs纳米线的可控p型掺杂
4. Increased photoconductivity lifetimes in GaAs nanowires via n-type and p-type shell doping [C] . Jessica L. Boland, A. Casadei, G. Tütüncouglu, International Conference on Infrared, Millimeter, and Terahertz Waves . 2016

机译：通过n型和p型壳层掺杂延长了GaAs纳米线的光电导寿命
5. Hot electron photoconductivity in GaAs/(Ga,Al)As multiquantum-wells and bulk GaAs. [D] . Jacobs, Eric Stephen. 1997

机译：GaAs /（Ga，Al）As多量子阱和块状GaAs中的热电子光电导率
6. Photovoltaic Properties of p-Doped GaAs Nanowire Arrays Grown on n-Type GaAs(111)B Substrate [O] . GE Cirlin, AD Bouravleuv, IP Soshnikov, 2010

机译：在n型GaAs（111）B衬底上生长的p掺杂GaAs纳米线阵列的光伏性能
7. Increased Photoconductivity Lifetime in GaAs Nanowires by Controlled nType and pType Doping [O] . -1

机译：通过受控N型和P型掺杂增加了GaAs纳米线中的光电导寿命
8. Comparison of Dominant Electron Trap Levels in n-Type and p-Type GaAsN Using Deep-Level Transient Spectroscopy [R] . Johnston, S. W. 2005

机译：用深能瞬态光谱法比较n型和p型GaasN中的显性电子陷阱能级

Increased Photoconductivity Lifetime in GaAs Nanowires by Controlled n-Type and p-Type Doping.

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