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Increasing the quantum efficiency of InAs/GaAs QD arrays for solar cells grown by MOVPE without using strain-balance technology

机译：在不使用应变平衡技术的情况下提高通过MOVPE生长的InAs / GaAs QD阵列的太阳能电池的量子效率

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Research into the formation of InAs quantum dots (QDs) in GaAs using the metalorganic vapor phase epitaxy technique ispresented. This technique is deemed to be cheaper than the more often used and studied molecular beam epitaxy. The bestconditions for obtaining a high photoluminescence response, indicating a good material quality, have been found among awide range of possibilities. Solar cells with an excellent quantum ef?ciency have been obtained, with a sub-bandgapphoto-response of 0.07 mA/cm2per QD layer, the highest achieved so far with the InAs/GaAs system, proving the potentialof this technology to be able to increase the ef?ciency of lattice-matched multi-junction solar cells and contributing to abetter understanding of QD technology toward the achievement of practical intermediate-band solar cells.

机译：提出了利用金属有机气相外延技术在GaAs中形成InAs量子点（QDs）的研究。这种技术被认为比更经常使用和研究的分子束外延便宜。在各种各样的可能性中已经找到了获得高光致发光响应的最佳条件，表明了良好的材料质量。已经获得了具有出色量子效率的太阳能电池，每个QD层的子带隙光响应为0.07 mA / cm2，这是InAs / GaAs系统迄今为止所达到的最高，证明了该技术的潜力晶格匹配的多结太阳能电池的效率，有助于更好地理解QD技术，以实现实用的中频带太阳能电池。

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Kalyuzhnyy Nikolay A.; Mintairov Sergey A.; Salii Roman A.; Nadtochiy Alexey M.; Payusov Alexey S.; Brunkov Pavel M.; Nevedomsky Vladimir N.; Shvarts Maxim Z.; Martí Vega Antonio; Andreev Viacheslav M.; Luque López Antonio;
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1. Increasing the quantum efficiency of InAs/GaAs QD arrays for solar cells grown by MOVPE without using strain-balance technology [J] . Kalyuzhnyy Nikolay A., Mintairov Sergey A., Salii Roman A., Progress in photovoltaics . 2016,第9期

机译：在不使用应变平衡技术的情况下提高通过MOVPE生长的太阳能电池的InAs / GaAs QD阵列的量子效率
2. Influence of the thermal treatment on the optical and structural properties of 1.3 μm emitting quantum dots (QDs) grown by LP-MOVPE grown InAs/GaAs quantum dots [J] . G.Saint-Girons, A.Mereuta, G.Patriarche Optical Materials . 2001,第1a2期

机译：热处理对LP-MOVPE生长的InAs / GaAs量子点生长的1.3μm发射量子点（QD）光学和结构性质的影响
3. Increasing the quantum efficiency of GaAs solar cells by embedding InAs quantum dots [J] . R A Salii, S A Mintairov, A M Nadtochiy, Journal of Physics: Conference Series . 2016,第1期

机译：通过嵌入INAS量子点增加GaAs太阳能电池的量子效率
4. The influence of direct, delta, and modulation QD Si doping on InAs/GaAs quantum dot solar cells [C] . Dongyoung Kim, Shun Chan, Mingchu Tang, World Conference on Photovoltaic Energy Conversion;European Photovoltaic Solar Energy Conference;Photovoltaic Science and Engineering Conference;IEEE Photovoltaic Specialist Conference . 2018

机译：直接，增量和调制QD Si掺杂对InAs / GaAs量子点太阳能电池的影响
5. Optical and Mechanical Investigation of InAs /GaAs Quantum Dots Solar Cells and InAs Nanowires for the Application of Photovoltaic Device. [D] . Dai, Yushuai. 2013

机译：InAs / GaAs量子点太阳能电池和InAs纳米线在光伏器件中的应用的光学和机械研究。
6. Towards InAs/InGaAs/GaAs Quantum Dot Solar Cells Directly Grown on Si Substrate [O] . Bilel Azeza, Mohamed Helmi Hadj Alouane, Bouraoui Ilahi, 2015

机译：硅衬底上直接生长的InAs / InGaAs / GaAs量子点太阳能电池
7. Towards InAs/InGaAs/GaAs Quantum Dot Solar Cells Directly Grown on Si Substrate [O] . Bilel Azeza, Mohamed Helmi Hadj Alouane, Bouraoui Ilahi, 2015

机译：朝向直接在si衬底上生长的Inas / InGaas / Gaas量子点太阳能电池

Increasing the quantum efficiency of InAs/GaAs QD arrays for solar cells grown by MOVPE without using strain-balance technology

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