Lateral absorption measurements of InAs/GaAs quantum dots stacks: potential as intermediate band material for high efficiency solar cells

机译：INAS / GaAs量子点堆叠的横向吸收测量：高效太阳能电池的中间带材料的电位

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Prototypes based on InAs/GaAs QDs have been manufactured in order to realize the theoretically predicted high efficiency intermediate band solar cells (IBSCs). Unfortunately, until now, these prototypes have not yet demonstrated the expected increase in efficiency when compared with reference samples without IB material. One of the main arguments explaining this performance is the weak photon absorption in the QD-IB material, arising from a low density of QDs. In this work, we have analyzed the absorption coefficient of the IB material by developing a sample in an optical wave-guided configuration. This configuration allows us to illuminate the QDs laterally, increasing the path length for photon absorption. Using a multi-section metal contact device design, we were able to measure an absorption coefficient of ～100cm~(-1) around the band edge (~leV) defined by the VB→IB transition in InAs/GaAs QD-IB materials. This figure, and its influence on the IBSC concept, is analyzed for this system.

机译：已经制造了基于INAS / GAAS QDS的原型，以实现理论上预测的高效中间带太阳能电池（IBSC）。遗憾的是，直到现在，与没有IB材料的参考样品相比，这些原型尚未证明预期的效率提高。解释这种性能的主要参数之一是QD-IB材料中的弱光子吸收，由低密度的QDS引起。在这项工作中，我们通过在光波引导配置中开发样品来分析IB材料的吸收系数。该配置允许我们横向地照亮QD，增加光子吸收的路径长度。使用多段金属接触装置设计，我们能够在VB→IB转换中由INAS / GaAs QD-IB材料中定义的带边缘（〜Lev）周围测量〜100cm〜（-1）的吸收系数。该系统对该系统分析了该系统对IBSC概念的影响。

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《Proceedings of Inorganic and Nanostructured Photovoltaics》|2013年||共8页
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E. Canovas; A. Marti; . Luque;
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中图分类太阳能发电;
关键词
Intermediate band; Quantum dots; Absorption; Characterization; Intermediate band solar cell;

机译：中间乐队;量子点;吸收;表征;中间带太阳能电池;

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1. Proposal of high efficiency solar cells with closely stacked InAs/In_(0.48)Ga_(0.52)P quantum dot superlattices: Analysis of polarized absorption characteristics via intermediate-band [J] . H. Yoshikawa, T. Kotani, Y. Kuzumoto, Applied Physics Letters . 2014,第1期

机译：具有紧密堆叠的InAs / In_（0.48）Ga_（0.52）P量子点超晶格的高效太阳能电池的建议：通过中带分析极化吸收特性
2. 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
3. Characterisation of the GaAs-based intermediate band solar cell with multi-stacked InAs/InGaAs quantum dots [J] . Rouis W., Sayari A., Nouiri M., International Journal of Nanotechnology . 2015,第8a9期

机译：带有多堆叠InAs / InGaAs量子点的基于GaAs的中带太阳能电池的表征
4. Lateral absorption measurements of InAs/GaAs quantum dots stacks: potential as intermediate band material for high efficiency solar cells [C] . E. Canovas, A. Marti, . Luque Proceedings of Inorganic and Nanostructured Photovoltaics . 2013

机译：INAS / GaAs量子点堆叠的横向吸收测量：高效太阳能电池的中间带材料的电位
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. Lateral absorption measurements of InAs/GaAs quantum dots stacks: Potential as intermediate band material for high efficiency solar cells [O] . Cánovas Díaz Enrique, Martí Vega Antonio, Luque López Antonio, 2010

机译：InAs / GaAs量子点堆叠的横向吸收测量：用作高效太阳能电池中间带材料的潜力

Lateral absorption measurements of InAs/GaAs quantum dots stacks: potential as intermediate band material for high efficiency solar cells

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