Estimation of the potential for increasing the efficiency of GaInP/GaAs/Ge multi-junction solar cells by using quantum-size objects

Mintairov Mikhail A.; Evstropov Valery V.; Mintairov Sergei A.; Nadtochiy Alexey M.; Nahimovich Maria V; Salii Roman A.; Shvarts Maxim Z.; Kalyuzhnyy Nikolay A.

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Estimation of the potential for increasing the efficiency of GaInP/GaAs/Ge multi-junction solar cells by using quantum-size objects

机译：估计通过使用量子尺寸对象提高增益/ GaAs / GE多结太阳能电池效率的潜力

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A study of GaAs solar cells (SCs) with various quantum-sized objects has been carried out. In0.2Ga0.8As quantum wells, In0.4Ga0.6As quantum well-dots (QWDs), In0.8Ga0.2As and InAs quantum dots have been considered. The increment in photocurrent and the reduction of open-circuit voltage have been calculated using dark IV and spectral characteristics. An analytical model for estimating the efficiency of triple-junction SCs with quantum objects has been described. The calculations have shown that the optimized QWDs have a potential for increasing the efficiency of GaInP/GaAs/Ge SC from 29.8% to 30.8% (AM0, 1 sun) and from 41.6% to 43.1% (AM1.5D, 360 suns).

机译：已经进行了具有各种量子大小对象的GaAs太阳能电池（SCS）的研究。 IN0.2GA0.8AS量子阱，IN0.4GA0.6as量子阱（QWDS），IN0.8GA0.2AS和INAS量子点。使用暗IV和光谱特性计算光电流中的增量和开路电压的降低。已经描述了一种估算量子物体三射流SCS效率的分析模型。该计算表明，优化的QWDS具有将GAINP / GAAS / GE SC的效率从29.8％增加到30.8％（AM0，1 SUN），41.6％至43.1％（AM1.5D，360太阳）的效率。

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来源
《Annales de l'I.H.P》 |2020年第6期|065004.1-065004.5|共5页
作者
Mintairov Mikhail A.; Evstropov Valery V.; Mintairov Sergei A.; Nadtochiy Alexey M.; Nahimovich Maria V; Salii Roman A.; Shvarts Maxim Z.; Kalyuzhnyy Nikolay A.;
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作者单位

RAS Submicron Heterostruct Microelect Res & Engn Ctr St Petersburg Russia;

Ioffe Inst St Petersburg Russia;

Ioffe Inst St Petersburg Russia;

RAS Submicron Heterostruct Microelect Res & Engn Ctr St Petersburg Russia;

Ioffe Inst St Petersburg Russia;

RAS Submicron Heterostruct Microelect Res & Engn Ctr St Petersburg Russia;

Ioffe Inst St Petersburg Russia;

Ioffe Inst St Petersburg Russia;

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原文格式 PDF
正文语种 eng
中图分类
关键词
solar cells; quantum objects; internal quantum yield; efficiency;

机译：太阳能电池;量子物体;内部量子产量;效率;

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1. The effect of InAs quantum-dot size and interdot distance on GaInP/GaAs/GaInAs/Ge multi-junction tandem solar cells [J] . Qu X., Zhang S., Bao H., Journal of Semiconductors . 2013,第6期

机译：InAs量子点尺寸和点间距对GaInP / GaAs / GaInAs / Ge多结串联太阳能电池的影响
2. Using Spin-Coated Silver Nanoparticles/Zinc Oxide Thin Films to Improve the Efficiency of GaInP/(In)GaAs/Ge Solar Cells [J] . Po-Hsun Lei, I-Jen Chen, Jia-Jan Chen, Materials . 2018,第6期

机译：使用旋涂银纳米粒子/氧化锌薄膜提高GaInP /（In）GaAs / Ge太阳能电池的效率
3. External quantum efficiency artifacts in partial‐irradiated GaInP/GaAs/Ge solar cells by protons and electrons [J] . Guo Hongliang, Wu Yiyong, Wang Jie, Energy Science & Engineering . 2018,第3期

机译：质子和电子在部分辐照的GaInP / GaAs / Ge太阳能电池中的外部量子效率伪像
4. Epitaxial lift-off of large-area GaAs multi-junction solar cells for high efficiency clean and portable energy power generation [C] . Pan N. IEEE International Conference on Semiconductor Electronics . 2014

机译：大面积GaAs多结太阳能电池的外延剥离，用于高效清洁和便携式能源发电
5. Formation of Porous Layers by Electrochemical Etching of Germanium and Gallium Arsenide for Cleave Engineered Layer Transfer (CELT) Application in High Efficiency Multi-Junction Solar Cells. [D] . Fong, David Michael. 2012

机译：电化学蚀刻锗和砷化镓形成的多孔层，用于高能效多结太阳能电池的分裂工程层转移（CELT）应用。
6. Using Spin-Coated Silver Nanoparticles/Zinc Oxide Thin Films to Improve the Efficiency of GaInP/(In)GaAs/Ge Solar Cells [O] . Po-Hsun Lei, I-Jen Chen, Jia-Jan Chen, 2018

机译：使用旋涂银纳米粒子/氧化锌薄膜提高GaInP /（In）GaAs / Ge太阳能电池的效率
7. Using Spin-Coated Silver Nanoparticles/Zinc Oxide Thin Films to Improve the Efficiency of GaInP/(In)GaAs/Ge Solar Cells [O] . Po-Hsun Lei, I-Jen Chen, Jia-Jan Chen, 2018

机译：使用旋涂的银纳米颗粒/氧化锌薄膜以提高GaInP /（In）GaAs / GE太阳能电池的效率
8. InGaP/GaAs/Ge Multi-Junction Solar Cell Efficiency Improvements Using EpitaxialGermanium [R] . Aiken, D. J. 2000

机译：使用外延锗的InGap / Gaas / Ge多结太阳能电池效率改进

Estimation of the potential for increasing the efficiency of GaInP/GaAs/Ge multi-junction solar cells by using quantum-size objects

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