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The feasibility of high-efficiency InAs/GaAs quantum dot intermediate band solar cells

机译：高效InAs / GaAs量子点中带太阳能电池的可行性

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In recent years, all the operating principles of intermediate band behaviour have been demonstrated in InAs/GaAs quantum dot (QD) solar cells. Having passed this hurdle, a new stage of research is underway, whose goal is to deliver QD solar cells with efficiencies above those of state-of-the-art single-gap devices. In this work, we demonstrate that this is possible, using the present InAs/GaAs QD system, if the QDs are made to be radiatively dominated, and if absorption enhancements are achieved by a combination of increasing the number of QDs and light trapping. A quantitative prediction is also made of the absorption enhancements required, suggesting that a 30 fold increase in the number of QDs and a light trapping enhancement of 10 are sufficient. Finally, insight is given into the relative merits of absorption enhancement via increasing QD numbers and via light trapping.

机译：近年来，在InAs / GaAs量子点（QD）太阳能电池中已经证明了所有中带行为的工作原理。克服了这一障碍，新的研究阶段正在进行中，其目标是提供效率高于最先进的单间隙器件的QD太阳能电池。在这项工作中，我们证明了使用当前的InAs / GaAs QD系统是可行的，如果使QD成为辐射主导，并且通过增加QD数量和捕获光来实现吸收增强。还对所需的吸收增强进行了定量预测，表明QD数量增加30倍和光捕获增强10倍就足够了。最后，通过增加QD数量和光陷获，可以洞悉吸收增强的相对优点。

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Mellor Null Alexander Virgil; Luque López Antonio; Tobías Galicia Ignacio; Martí Vega Antonio;
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年度 2014
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1. The feasibility of high-efficiency InAs/GaAs quantum dot intermediate band solar cells [J] . A. Mellor, A. Luque, I. Tobias, Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion . 2014,第Null期

机译：高效InAs / GaAs量子点中带太阳能电池的可行性
2. Saturable Two-Step Photocurrent Generation in Intermediate-Band Solar Cells Including InAs Quantum Dots Embedded in AlGaAs/GaAs Quantum Wells [J] . Asahi Shigeo, Teranishi Haruyuki, Kasamatsu Naofumi, Photovoltaics, IEEE Journal of . 2016,第2期

机译：包括嵌入AlGaAs / GaAs量子阱中的InAs量子点在内的中带太阳能电池中的饱和两步光电流产生
3. Stranski-Krastanov InAs/GaAsSb quantum dots coupled with sub-monolayer quantum dot stacks as a promising absorber for intermediate band solar cells [J] . Yeongho Kim, ll-Wook Cho, Mee-Yi Ryu, Applied Physics Letters . 2017,第7期

机译：Stranski-Krastanov InAs / GaAsSb量子点与亚单层量子点堆叠耦合，有望成为中带太阳能电池的吸收体
4. INFLUENCE OF THE QUANTUM DOT CAPPING PROCEDURE ON THE DENSITY OF DEFECTS IN INAS/GAAS QUANTUM DOT INTERMEDIATE BAND SOLAR CELLS [C] . D. N. Micha, E. C. Weiner, R. Jakomin, European Photovoltaic Solar Energy Conference and Exhibition . 2016

机译：量子点覆盖程序对INAS / GaAs量子点中间带太阳能电池缺陷密度的影响
5. Fabrication and Characterization of Perovskite Solar Cell and Challenges to the Intermediate Band Concept in InAs/GaAs Quantum Dot Solar Cell [D] . Yao, Yangyi. 2019

机译：钙钛矿太阳能电池的制造与表征inaS / GaAs量子点太阳能电池中间带概念的挑战
6. Efficient two-step photocarrier generation in bias-controlled InAs/GaAs quantum dot superlattice intermediate-band solar cells [O] . T. Kada, S. Asahi, T. Kaizu, -1

机译：偏置控制的InAs / GaAs量子点超晶格中带太阳能电池中高效的两步光生载流子
7. Quantum engineering of InAs/GaAs quantum dot based intermediate band solar cells [O] . Beattie Neil, See Patrick, Zoppi Guillaume, 2017

机译：基于InAs / GaAs量子点的中带太阳能电池的量子工程

The feasibility of high-efficiency InAs/GaAs quantum dot intermediate band solar cells

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