Progress toward technology transition of GaInP₂/GaAs/Ge multijunction solar cells

机译：GAINP _{2 GE / GE多结太阳能电池技术转变的进展}

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The objective of the joint WL/PL/NASA Multijunction Solar Cell Manufacturing Technology (ManTech) Program is to scale up high efficiency GaInP₂/GaAs/Ge multijunction solar cells to production size, quantity, and yield while limiting the production cost/Watt ($/W) to 15% over GaAs cells. Progress made by the program contractors, Spectrolab and TECSTAR, include, respectively, best cell efficiencies of 25.76% and 24.7% and establishment of 24.2% and 23.8% lot average efficiency baseline designs. The paper also presents side-by-side testing results collected by Phillips Laboratory and NASA Lewis on Phase I deliverable cells, which shows compliance with program objectives. Cell performance, pre- and post-radiation, and temperature coefficient results on initial production GaInP₂/GaAs/Ge solar cells are presented

机译：联合WL / PL / NASA多结太阳能电池制造技术（Mantech）计划的目的是扩大高效增益<亚> 2 / gaas / ge多结的太阳能电池，以生产尺寸，数量和产量将生产成本/瓦特（$ / W）限制在GaAs细胞上的15％。方案承包商，Spectrolab和Tecstar的进展分别为25.76％和24.7％的最佳细胞效率，建立24.2％和23.8％划分的平均效率基线设计。本文还呈现了由Phillips实验室和NASA Lewis收集的并排测试结果，该阶段I可交付电池显示，显示符合计划目标。提出了细胞性能，预辐射和后辐射，和温度系数在初始生产GAINP _{2 / GEAS / GE太阳能电池上呈现}

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《IEEE International Conference on Computer Science and Automation Engineering》|2011年||共6页
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Keener D.N.; Marvin D.C.; Brinker D.J.; Curtis H.B.; Price P.M.;
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1. InGaAs quantum well-dots based GaAs subcell with enhanced photocurrent for multijunction GaInP/GaAs/Ge solar cells [J] . Mintairov S. A., Kalyuzhnyy N. A., Maximov M. V., Semiconductor science and technology . 2017,第1期

机译：用于多结GaInP / GaAs / Ge太阳能电池的具有增强光电流的基于InGaAs量子阱点的GaAs子电池
2. The effects of temperature and light concentration on the GaInP/GaAs multijunction solar cell's performance [J] . M.Y. Feteha, G.M. Eldallal Renewable energy . 2003,第7期

机译：温度和光浓度对GaInP / GaAs多结太阳能电池性能的影响
3. Germanium subcells for multijunction GaInP/GaInAs/Ge solar cells [J] . Kalyuzhnyy N.A., Gudovskikh A.S., Evstropov V.V., Semiconductors . 2010,第11期

机译：用于多结GaInP / GaInAs / Ge太阳能电池的锗子电池
4. Progress toward technology transition of GaInP₂/GaAs/Ge multijunction solar cells [C] . Keener D.N., Marvin D.C., Brinker D.J., IEEE International Conference on Computer Science and Automation Engineering . 2011

机译：GAINP _{2 GE / GE多结太阳能电池技术转变的进展}
5. Heterogeneous Integration of III-V Multijunction Solar Cells on Si Substrate: Cell Design & Modeling, Epitaxial Growth & Fabrication. [D] . Jain, Nikhil. 2015

机译：Si衬底上III-V多结太阳能电池的异质集成：电池设计与建模，外延生长与制造。
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. ARXPS analysis of a GaAs/GaInP heterointerface with application in III-V multijunction solar cells [O] . Gabás M., López-Escalante M.C., Algora del Valle Carlos, 2012

机译：GaAs / GaInP异质界面的ARXPS分析及其在III-V多结太阳能电池中的应用

Progress toward technology transition of GaInP2/GaAs/Ge multijunction solar cells

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Progress toward technology transition of GaInP₂/GaAs/Ge multijunction solar cells