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Comparison of electron and hole mobilities in multiple quantum well solar cells using a time-of-flight technique

机译：使用飞行时间技术比较多量子阱太阳能电池中的电子和空穴迁移率

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A difficulty of carrier transport in multiple quantum well (MQW) solar cells is one critical issue that limits their cell performance. Here, direct measurement of electron and hole transport times across InGaAs/GaAsP MQWs has been carried out using our proposed time-of-flight measurement technique on p-on-n and n-on-p MQW structures, respectively. The corresponding effective mobilities are determined, allowing us to approximate the MQW region as a quasi-bulk material with smaller carrier mobilities than a bulk crystal. The result shows similar effective electron and hole mobilities. This results in the similar tendency of cell performance in p-on-n and n-on-p MQW solar cells.

机译：多量子阱（MQW）太阳能电池中载流子传输的困难是限制其电池性能的一个关键问题。在这里，已经分别使用我们建议的飞行时间测量技术对p-on-n和n-on-p MQW结构进行了跨InGaAs / GaAsP MQW的电子和空穴传输时间的直接测量。确定了相应的有效迁移率，使我们可以将MQW区域近似为具有比块状晶体小的载流子迁移率的准本体材料。结果显示出相似的有效电子迁移率和空穴迁移率。这导致p-on-n和n-on-p MQW太阳能电池具有相似的电池性能趋势。

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《IEEE Photovoltaic Specialists Conference》|2015年|1-4|共4页
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Toprasertpong Kasidit; Tanibuchi Taizo; Fujii Hiromasa; Kada Tomoyuki; Asahi Shigeo; Watanabe Kentaroh; Sugiyama Masakazu; Kita Takashi; Nakano Yoshiaki;
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Charge carrier processes; Current measurement; Photovoltaic cells; Probes; Quantum well devices; Thickness measurement; Time measurement; Carrier transport; charge carrier mobility; measurement techniques; photoluminescence; photovoltaic cells; quantum well devices; time-of-flight;

机译：电荷载体过程;电流测量光伏电池;探针;量子阱设备;厚度测量;时间测量;承运人运输;电荷载流子迁移率;测量技术;光致发光光伏电池量子阱设备;飞行时间;

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1. Comparison of Electron and Hole Mobilities in Multiple-Quantum-Well Solar Cells Using a Time-of-Flight Technique [J] . Toprasertpong Kasidit, Tanibuchi Taizo, Fujii Hiromasa, Photovoltaics, IEEE Journal of . 2015,第6期

机译：使用飞行时间技术比较多量子阱太阳能电池中的电子和空穴迁移率
2. STUDY OF HOLE-BLOCKING AND ELECTRON-BLOCKING LAYERS IN A InAs/GaAs MULTIPLE QUANTUM-WELL SOLAR CELL [J] . Sobhan Abasian, Reza Sabbaghi-Nadooshan Facta Universitatis. Series Electronics and Energetics . 2020,第3期

机译：在INAS / GAAs多量子井太阳能电池中的空穴阻挡和电子阻挡层的研究
3. Electron and hole transport in microcrystalline silicon solar cells studied by time-of-flight photocurrent spectroscopy [J] . Dylla T, Reynolds S, Carius R, Journal of Non-Crystalline Solids: A Journal Devoted to Oxide, Halide, Chalcogenide and Metallic Glasses, Amorphous Semiconductors, Non-Crystalline Films, Glass-Ceramics and Glassy Composites . 2006,第9a20期

机译：飞行时间光电流光谱法研究微晶硅太阳能电池中的电子和空穴传输
4. Comparison of electron and hole mobilities in multiple quantum well solar cells using a time-of-flight technique [C] . Toprasertpong Kasidit, Tanibuchi Taizo, Fujii Hiromasa, IEEE Photovoltaic Specialists Conference . 2015

机译：使用飞行时间技术比较多量子井太阳能电池中的电子和孔迁移率
5. Study of optoelectronic properties of thin film solar cell materials Cu2ZnSn(S,Se)4 using multiple correlative spatially-resolved spectroscopy techniques. [D] . Chen, Qiong. 2015

机译：利用多种相关空间分辨光谱技术研究薄膜太阳能电池材料Cu2ZnSn（S，Se）4的光电性能。
6. Plasma-Exposure-Induced Mobility Enhancement of LiTFSI-Doped Spiro-OMeTAD Hole Transport Layer in Perovskite Solar Cells and Its Impact on Device Performance [O] . Hao Qu, Gao Zhao, Yumeng Wang, 2019

机译：钙钛矿型太阳能电池中LiTFSI掺杂Spiro-OMeTAD空穴传输层的等离子体暴露诱导迁移性增强及其对器件性能的影响
7. Study of hole-blocking and electron-blocking layers in a InaS/GaAs multiple quantum-well solar cell [O] . Sobhan Abbasian, Reza Sabbaghi-Nadooshan 2020

机译：在INAS / GAAs多量子井太阳能电池中的空穴阻挡和电子阻挡层的研究
8. Electron-Hole Scattering and the Negative Absolute Mobility of Electrons in a Semiconductor Quantum Well, [R] . Cai, W., Zheng, T.F., Lax, M. 1988

机译：半导体量子阱中的电子空穴散射和电子的负绝对迁移率，

Comparison of electron and hole mobilities in multiple quantum well solar cells using a time-of-flight technique

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