[EAN: 9783848486649], Neubuch, [PU: LAP Lambert Academic Publishing Sep 2012], Neuware - Thin-film silicon solar cell is a promising technology for solar energy due to their low-cost larg… mais…
[EAN: 9783848486649], Neubuch, [PU: LAP Lambert Academic Publishing Sep 2012], Neuware - Thin-film silicon solar cell is a promising technology for solar energy due to their low-cost large-scale manufacturability, but one of the major challenges is to absorb light at infrared wavelengths where the absorption length is much larger than the active layer thickness. This book overviews the state-of-the-art light trapping technology for efficiency improvement in thin-film Si solar cells. we propose an all-dielectric, textured photonic crystal (TPC) as an effective light trapping scheme, which integrates dielectric gratings and a distributed Bragg reflector (DBR) in the backside of thin film silicon. We understand the operation principles for this design by using photonic band theories and electromagnetic wave simulations. We also developed a self-assembled method to fabricate the proposed photonic structures. Finally, we explored the fundamental performance limits for thin-lm Si solar cells. 164 pp. Englisch<
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Thin-film silicon solar cell is a promising technology for solar energy due to their low-cost large-scale manufacturability, but one of the major challenges is to absorb light at infrared… mais…
Thin-film silicon solar cell is a promising technology for solar energy due to their low-cost large-scale manufacturability, but one of the major challenges is to absorb light at infrared wavelengths where the absorption length is much larger than the active layer thickness. This book overviews the state-of-the-art light trapping technology for efficiency improvement in thin-film Si solar cells. we propose an all-dielectric, textured photonic crystal (TPC) as an effective light trapping scheme, which integrates dielectric gratings and a distributed Bragg reflector (DBR) in the backside of thin film silicon. We understand the operation principles for this design by using photonic band theories and electromagnetic wave simulations. We also developed a self-assembled method to fabricate the proposed photonic structures. Finally, we explored the fundamental performance limits for thin-lm Si solar cells. Bücher / Naturwissenschaften, Medizin, Informatik & Technik / Physik & Astronomie / Elektrizität, Magnetismus & Optik<
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Thin-film silicon solar cell is a promising technology for solar energy due to their low-cost large-scale manufacturability, but one of the major challenges is to absorb light at infrared… mais…
Thin-film silicon solar cell is a promising technology for solar energy due to their low-cost large-scale manufacturability, but one of the major challenges is to absorb light at infrared wavelengths where the absorption length is much larger than the active layer thickness. This book overviews the state-of-the-art light trapping technology for efficiency improvement in thin-film Si solar cells. we propose an all-dielectric, textured photonic crystal (TPC) as an effective light trapping scheme, which integrates dielectric gratings and a distributed Bragg reflector (DBR) in the backside of thin film silicon. We understand the operation principles for this design by using photonic band theories and electromagnetic wave simulations. We also developed a self-assembled method to fabricate the proposed photonic structures. Finally, we explored the fundamental performance limits for thin-lm Si solar cells. Boeken, Audioboeken & Kalenders / Boeken / Non-Fictie / Natuurwetenschappen / Fysica / Elektriciteit<
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Thin-film Silicon Solar Cells ab 68 € als Taschenbuch: Photonic Design Process and Fundamentals. Aus dem Bereich: Bücher, Wissenschaft, Physik, Medien > Bücher, LAP Lambert Academic Publi… mais…
Thin-film Silicon Solar Cells ab 68 € als Taschenbuch: Photonic Design Process and Fundamentals. Aus dem Bereich: Bücher, Wissenschaft, Physik, Medien > Bücher, LAP Lambert Academic Publishing<
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[EAN: 9783848486649], Neubuch, [PU: LAP Lambert Academic Publishing Sep 2012], Neuware - Thin-film silicon solar cell is a promising technology for solar energy due to their low-cost larg… mais…
[EAN: 9783848486649], Neubuch, [PU: LAP Lambert Academic Publishing Sep 2012], Neuware - Thin-film silicon solar cell is a promising technology for solar energy due to their low-cost large-scale manufacturability, but one of the major challenges is to absorb light at infrared wavelengths where the absorption length is much larger than the active layer thickness. This book overviews the state-of-the-art light trapping technology for efficiency improvement in thin-film Si solar cells. we propose an all-dielectric, textured photonic crystal (TPC) as an effective light trapping scheme, which integrates dielectric gratings and a distributed Bragg reflector (DBR) in the backside of thin film silicon. We understand the operation principles for this design by using photonic band theories and electromagnetic wave simulations. We also developed a self-assembled method to fabricate the proposed photonic structures. Finally, we explored the fundamental performance limits for thin-lm Si solar cells. 164 pp. Englisch<
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Thin-film silicon solar cell is a promising technology for solar energy due to their low-cost large-scale manufacturability, but one of the major challenges is to absorb light at infrared… mais…
Thin-film silicon solar cell is a promising technology for solar energy due to their low-cost large-scale manufacturability, but one of the major challenges is to absorb light at infrared wavelengths where the absorption length is much larger than the active layer thickness. This book overviews the state-of-the-art light trapping technology for efficiency improvement in thin-film Si solar cells. we propose an all-dielectric, textured photonic crystal (TPC) as an effective light trapping scheme, which integrates dielectric gratings and a distributed Bragg reflector (DBR) in the backside of thin film silicon. We understand the operation principles for this design by using photonic band theories and electromagnetic wave simulations. We also developed a self-assembled method to fabricate the proposed photonic structures. Finally, we explored the fundamental performance limits for thin-lm Si solar cells. Bücher / Naturwissenschaften, Medizin, Informatik & Technik / Physik & Astronomie / Elektrizität, Magnetismus & Optik<
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Thin-film silicon solar cell is a promising technology for solar energy due to their low-cost large-scale manufacturability, but one of the major challenges is to absorb light at infrared… mais…
Thin-film silicon solar cell is a promising technology for solar energy due to their low-cost large-scale manufacturability, but one of the major challenges is to absorb light at infrared wavelengths where the absorption length is much larger than the active layer thickness. This book overviews the state-of-the-art light trapping technology for efficiency improvement in thin-film Si solar cells. we propose an all-dielectric, textured photonic crystal (TPC) as an effective light trapping scheme, which integrates dielectric gratings and a distributed Bragg reflector (DBR) in the backside of thin film silicon. We understand the operation principles for this design by using photonic band theories and electromagnetic wave simulations. We also developed a self-assembled method to fabricate the proposed photonic structures. Finally, we explored the fundamental performance limits for thin-lm Si solar cells. Boeken, Audioboeken & Kalenders / Boeken / Non-Fictie / Natuurwetenschappen / Fysica / Elektriciteit<
Nr. ILHA6JNGLFG. Custos de envio:, Lieferzeit: 5 Days, NL. (EUR 0.00)
Thin-film Silicon Solar Cells ab 68 € als Taschenbuch: Photonic Design Process and Fundamentals. Aus dem Bereich: Bücher, Wissenschaft, Physik, Medien > Bücher, LAP Lambert Academic Publi… mais…
Thin-film Silicon Solar Cells ab 68 € als Taschenbuch: Photonic Design Process and Fundamentals. Aus dem Bereich: Bücher, Wissenschaft, Physik, Medien > Bücher, LAP Lambert Academic Publishing<
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EAN (ISBN-13): 9783848486649 ISBN (ISBN-10): 3848486644 Livro de capa dura Livro de bolso Ano de publicação: 2012 Editor/Editora: LAP LAMBERT Academic Publishing
Livro na base de dados desde 2007-11-18T03:23:46+00:00 (Lisbon) Página de detalhes modificada pela última vez em 2021-12-05T21:35:20+00:00 (Lisbon) Número ISBN/EAN: 9783848486649
Número ISBN - Ortografia alternativa: 3-8484-8664-4, 978-3-8484-8664-9 Ortografia alternativa e termos de pesquisa relacionados: Título do livro: solar, fundamentals photonics, film design
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