Improving the radiation hardness of space solar cells via nanophotonic light trapping

A. Mellor; N. P. Hylton; Ch Wellens; T. Thomas; Y. Al-Saleh; V. Giannini; A. Braun; H. Hauser; S. A. Maier; N. J. Ekins-Daukes

doi:10.1109/PVSC.2017.8366800

Improving the radiation hardness of space solar cells via nanophotonic light trapping

A. Mellor, N. P. Hylton, Ch Wellens, T. Thomas, Y. Al-Saleh, V. Giannini, A. Braun, H. Hauser, S. A. Maier, N. J. Ekins-Daukes

Physics

نتاج البحث: Conference contribution

1 اقتباس (Scopus)

ملخص

We show that the radiation-hardness of space solar cells can be significantly improved by employing nanophotonic light trapping. Two light-trapping structures are investigated in this work. In the first, an array of Al nanoparticles is embedded within the anti-reflection coating of a GaInP/InGaAs/Ge solar cell. A combined experimental and simulation study shows that this structure is unlikely to lead to an improvement in radiation hardness. In the second, a diffractive structure is positioned between the middle cell and the bottom cell. Computational results, obtained using an experimentally validated electro-optical simulation tool, show that a properly designed light-trapping structure in this position can lead to a relative 10% improvement in the middle-cell photocurrent at end-of-life.

اللغة الأصلية	English
عنوان منشور المضيف	2017 IEEE 44th Photovoltaic Specialist Conference, PVSC 2017
ناشر	Institute of Electrical and Electronics Engineers Inc.
الصفحات	1-4
عدد الصفحات	4
رقم المعيار الدولي للكتب (الإلكتروني)	9781509056057
المعرِّفات الرقمية للأشياء	https://doi.org/10.1109/PVSC.2017.8366800
حالة النشر	Published - 2017
الحدث	44th IEEE Photovoltaic Specialist Conference, PVSC 2017 - Washington, United States المدة: يونيو ٢٥ ٢٠١٧ → يونيو ٣٠ ٢٠١٧

سلسلة المنشورات

الاسم	2017 IEEE 44th Photovoltaic Specialist Conference, PVSC 2017

Conference

Conference	44th IEEE Photovoltaic Specialist Conference, PVSC 2017
الدولة/الإقليم	United States
المدينة	Washington
المدة	٦/٢٥/١٧ → ٦/٣٠/١٧

ASJC Scopus subject areas

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أهداف الأمم المتحدة للتنمية المستدامة

يساهم هذا المخرج في تحقيق أهداف الأمم المتحدة للتنمية المستدامة التالية (SDGs)

الوصول إلى المستند

10.1109/PVSC.2017.8366800

الملفات والروابط الأخرى

قم بذكر هذا

Mellor, A., Hylton, N. P., Wellens, C., Thomas, T., Al-Saleh, Y., Giannini, V., Braun, A., Hauser, H., Maier, S. A., & Ekins-Daukes, N. J. (2017). Improving the radiation hardness of space solar cells via nanophotonic light trapping. في 2017 IEEE 44th Photovoltaic Specialist Conference, PVSC 2017 (الصفحات 1-4). (2017 IEEE 44th Photovoltaic Specialist Conference, PVSC 2017). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/PVSC.2017.8366800

Improving the radiation hardness of space solar cells via nanophotonic light trapping. / Mellor, A.; Hylton, N. P.; Wellens, Ch وآخرون.
2017 IEEE 44th Photovoltaic Specialist Conference, PVSC 2017. Institute of Electrical and Electronics Engineers Inc., 2017. صفحة 1-4 (2017 IEEE 44th Photovoltaic Specialist Conference, PVSC 2017).

نتاج البحث: Conference contribution

Mellor, A, Hylton, NP, Wellens, C, Thomas, T, Al-Saleh, Y, Giannini, V, Braun, A, Hauser, H, Maier, SA & Ekins-Daukes, NJ 2017, Improving the radiation hardness of space solar cells via nanophotonic light trapping. في 2017 IEEE 44th Photovoltaic Specialist Conference, PVSC 2017. 2017 IEEE 44th Photovoltaic Specialist Conference, PVSC 2017, Institute of Electrical and Electronics Engineers Inc., الصفحات 1-4, 44th IEEE Photovoltaic Specialist Conference, PVSC 2017, Washington, United States, ٦/٢٥/١٧. https://doi.org/10.1109/PVSC.2017.8366800

Mellor A, Hylton NP, Wellens C, Thomas T, Al-Saleh Y, Giannini V وآخرون. Improving the radiation hardness of space solar cells via nanophotonic light trapping. في 2017 IEEE 44th Photovoltaic Specialist Conference, PVSC 2017. Institute of Electrical and Electronics Engineers Inc. 2017. صفحة 1-4. (2017 IEEE 44th Photovoltaic Specialist Conference, PVSC 2017). doi: 10.1109/PVSC.2017.8366800

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abstract = "We show that the radiation-hardness of space solar cells can be significantly improved by employing nanophotonic light trapping. Two light-trapping structures are investigated in this work. In the first, an array of Al nanoparticles is embedded within the anti-reflection coating of a GaInP/InGaAs/Ge solar cell. A combined experimental and simulation study shows that this structure is unlikely to lead to an improvement in radiation hardness. In the second, a diffractive structure is positioned between the middle cell and the bottom cell. Computational results, obtained using an experimentally validated electro-optical simulation tool, show that a properly designed light-trapping structure in this position can lead to a relative 10% improvement in the middle-cell photocurrent at end-of-life.",

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AU - Hylton, N. P.

AU - Wellens, Ch

AU - Thomas, T.

AU - Al-Saleh, Y.

AU - Giannini, V.

AU - Braun, A.

AU - Hauser, H.

AU - Maier, S. A.

AU - Ekins-Daukes, N. J.

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AB - We show that the radiation-hardness of space solar cells can be significantly improved by employing nanophotonic light trapping. Two light-trapping structures are investigated in this work. In the first, an array of Al nanoparticles is embedded within the anti-reflection coating of a GaInP/InGaAs/Ge solar cell. A combined experimental and simulation study shows that this structure is unlikely to lead to an improvement in radiation hardness. In the second, a diffractive structure is positioned between the middle cell and the bottom cell. Computational results, obtained using an experimentally validated electro-optical simulation tool, show that a properly designed light-trapping structure in this position can lead to a relative 10% improvement in the middle-cell photocurrent at end-of-life.

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