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Multijunction Solar Cell Efficiencies: Effect of Spectral Window, Optical Environment and Radiative Coupling.

机译：多结太阳能电池效率：光谱窗口，光学环境和辐射耦合的影响。

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Solar cell efficiency is maximized through multijunction architectures that minimize carrier thermalization and increase absorption. Previous proposals suggest that the maximum efficiency for a finite number of subcells is achieved for designs that optimize for light trapping over radiative coupling. We instead show that structures with radiative coupling and back reflectors for light trapping, e.g. spectrum-splitting cells, can achieve higher conversion efficiencies. We model a compatible geometry, the polyhedral specular reflector. We analyze and experimentally verify the effects of spectral window and radiative coupling on voltage and power. Our results indicate that radiative coupling with back reflectors leads to higher efficiencies than previously studied architectures for practical multijunction architectures (i.e., < or = 20 subcells).

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Eisler, C. N.; Abrams, Z. R.; Sheldon, M. T.; Zhang, X.; Atwater, H. A.;
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年度 2014
页码 1-7
总页数 7
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
SOLAR CELLS; EFFICIENCY; PHOTOELECTRIC CELLS(SEMICONDUCTOR); REFLECTORS; RADIATIVE COUPLING;

机译：太阳能电池;效率;光电电池（半导体）;反射器;辐射耦合;

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专利

1. Multijunction solar cell efficiencies: effect of spectral window, optical environment and radiative coupling [J] . Carissa N. Eister, Zeev R. Abrams, Matthew T. Sheldon, Energy & environmental science . 2014,第11期

机译：多结太阳能电池效率：光谱窗口，光学环境和辐射耦合的影响
2. Implications of Redesigned, High-Radiative-Efficiency GaInP Junctions on III-V Multijunction Concentrator Solar Cells [J] . Geisz J.F., Steiner M.A., Garcia I., Photovoltaics, IEEE Journal of . 2015,第1期

机译：重新设计的高辐射效率GaInP结对III-V多结聚光器太阳能电池的影响
3. Practical Limits of Multijunction Solar Cell Performance Enhancement From Radiative Coupling Considering Realistic Spectral Conditions [J] . Chan N.L.A., Thomas T., Fuhrer M., Photovoltaics, IEEE Journal of . 2014,第5期

机译：考虑实际光谱条件的辐射耦合提高多结太阳能电池性能的实际限制
4. Performance enhancement from radiative coupling considering realistic spectral conditions for optimal and sub-optimal bandgap multijunction solar cells [C] . Thomas Tomos, Chan Ngai Lam Alvin, Fuhrer Markus, IEEE Photovoltaic Specialists Conference . 2014

机译：考虑最佳光谱和次优带隙多结太阳能电池的实际光谱条件的辐射耦合性能增强
5. Wide-band gap heterojunction window layers and optical confinement for high-efficiency silicon solar cells [D] . Landis, Geoffrey Alan 1988

机译：高效硅太阳能电池的宽带隙异质结窗口层和光学限制
6. Spectral response measurements of multijunction solar cells with low shunt resistance and breakdown voltages [O] . Juan P. Babaro, Kevin G. West, Behrang H. Hamadani -1

机译：低分流电阻和击穿电压的多结太阳能电池的光谱响应测量
7. Multijunction solar cell efficiencies: effect of spectral window, optical environment and radiative coupling [O] . Eisler, Carissa N., Abrams, Ze’ev R., Sheldon, Matthew T., 2014

机译：多结太阳能电池效率：光谱窗口，光学环境和辐射耦合的影响

Multijunction Solar Cell Efficiencies: Effect of Spectral Window, Optical Environment and Radiative Coupling.

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