Broadband quasi-omnidirectional antireflection AlGaInP window for III-V multi-junction solar cells through thermally dewetted Au nanotemplate

R. Y. Zhang; B. Shao; J. R. Dong; K. Huang; Y. M. Zhao; S. Z. Yu; H. Yang

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Broadband quasi-omnidirectional antireflection AlGaInP window for III-V multi-junction solar cells through thermally dewetted Au nanotemplate

机译：通过热去湿的金纳米模板用于III-V多结太阳能电池的宽带准全向减反射AlGaInP窗口

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Al(Ga)InP subwavelength structures (SWS) were fabricated and optimized through thermally dewetted Au nanotemplate and ICP pattern-transfer. When λ 900 nm, most AlGaInP nanostructures exhibit the reflectivity of less than 2% and insensitive to the incident angle up to 45°. When λ extends to 1800 nm, the reflectivity of less than 5% over 0°-45° is achieved in the optimized nanostructure, which benefits III-V multi-junction solar cells to improve their efficiency. Moreover, not only is such cost-effective nano-fabrication process completely compatible with the other processing of III-V solar cells, but their defined disordered SWS benefit the antireflection performance over broadband and wide view according to the comparison between the measurement and simulation results from AlGaInP SWS.

机译：Al（Ga）InP亚波长结构（SWS）的制备和通过热去湿的金纳米模板和ICP模式转移进行了优化。当λ<900 nm时，大多数AlGaInP纳米结构的反射率均小于2％，并且对高达45°的入射角不敏感。当λ扩展到1800 nm时，在优化的纳米结构中0°-45°范围内的反射率将小于5％，这有利于III-V多结太阳能电池提高效率。此外，根据测量结果和仿真结果的比较，这种具有成本效益的纳米制造工艺不仅与III-V太阳能电池的其他工艺完全兼容，而且它们定义的无序SWS有利于宽带和宽视角的抗反射性能。来自AlGaInP SWS。

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《Optical Materials Express 》 |2012年第2期| 共10页
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R. Y. Zhang; B. Shao; J. R. Dong; K. Huang; Y. M. Zhao; S. Z. Yu; H. Yang;
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1. Broadband quasi-omnidirectional antireflection AlGaInP window for III-V multi-junction solar cells through thermally dewetted Au nanotemplate [J] . R. Y. Zhang, B. Shao, J. R. Dong, Optical Materials Express . 2012 ,第2期

机译：通过热去湿的金纳米模板用于III-V多结太阳能电池的宽带准全向减反射AlGaInP窗口
2. Nanostructured encapsulation coverglasses with wide-angle broadband antireflection and self-cleaning properties for III-V multi-junction solar cell applications [J] . Jung Woo Leem, Jae Su Yu, Jonggon Heo, Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion . 2014 ,第Pta2期

机译：具有III-V多结太阳能电池应用的具有广角宽带抗反射和自清洁特性的纳米结构封装盖玻片
3. Broadband Antireflection Subwavelength Structures on Fused Silica Using Lower Temperatures Normal Atmosphere Thermal Dewetted Au Nanopatterns [J] . Ye Xin, Huang Jin, Geng Feng, Photonics Journal, IEEE . 2016 ,第1期

机译：低温常温热去湿金纳米图案在熔融石英上的宽带减反射亚波长结构
4. DESIGN OF BROADBAND AND OMNIDIRECTIONAL ANTIREFLECTION COATINGS FOR III-V CONCENTRATING MULTIJUNCTION SOLAR CELLS [C] . L. C. Andreani, M. Liscidini, M. Passoni, European Photovoltaic Solar Energy Conference and Exhibition . 2017

机译：III-V集中多结太阳能电池宽带和全向抗反射涂层设计
5. Optimal Junction Parameters to Improve The Quantum Efficiency of Multi-junction Perovskite / III-V Solar Cells [D] . Rentschler, Micah D. 2019

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6. Exceptionally omnidirectional broadband light harvesting scheme for multi-junction concentrator solar cells achieved via ZnO nanoneedles [O] . Li-Ko Yeh, Wei-Cheng Tian, Kun-Yu Lai, -1

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7. Evolution of the silicon bottom cell photovoltaic behavior during III-V on Si multi-junction solar cells production [O] . Garcia Tabares Valdivieso Elisa, Grassman T. J., Martín Martín Diego, 2015

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Broadband quasi-omnidirectional antireflection AlGaInP window for III-V multi-junction solar cells through thermally dewetted Au nanotemplate

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