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Sustainable Design of Photovoltaics: Devices and Quantum Information

Sustainable Design of Photovoltaics: Devices and Quantum Information

Mihai V. Putz, Marina A. Tudoran, Marius C. Mirica, Mirela I. Iorga, Radu Bănică, Ștefan D. Novaconi, Ionel Balcu, Ștefania F. Rus, Ana-Maria Putz
Copyright: © 2017 |Pages: 78
ISBN13: 9781522504924|ISBN10: 1522504923|EISBN13: 9781522504931
DOI: 10.4018/978-1-5225-0492-4.ch011
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MLA

Putz, Mihai V., et al. "Sustainable Design of Photovoltaics: Devices and Quantum Information." Sustainable Nanosystems Development, Properties, and Applications, edited by Mihai V. Putz and Marius Constantin Mirica, IGI Global, 2017, pp. 412-489. https://doi.org/10.4018/978-1-5225-0492-4.ch011

APA

Putz, M. V., Tudoran, M. A., Mirica, M. C., Iorga, M. I., Bănică, R., Novaconi, Ș. D., Balcu, I., Rus, Ș. F., & Putz, A. (2017). Sustainable Design of Photovoltaics: Devices and Quantum Information. In M. Putz & M. Mirica (Eds.), Sustainable Nanosystems Development, Properties, and Applications (pp. 412-489). IGI Global. https://doi.org/10.4018/978-1-5225-0492-4.ch011

Chicago

Putz, Mihai V., et al. "Sustainable Design of Photovoltaics: Devices and Quantum Information." In Sustainable Nanosystems Development, Properties, and Applications, edited by Mihai V. Putz and Marius Constantin Mirica, 412-489. Hershey, PA: IGI Global, 2017. https://doi.org/10.4018/978-1-5225-0492-4.ch011

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Abstract

With the ever present-to-future need of renewable energy the main features of photo-electrochemistry processes are reviewed and described from the perspective of devices phenomenology serving to sustainable design of photovoltaics, while providing the quantum insight in terms of data observability and interpretation. At the same time, the photovoltaic cell “enriched” with quantum dots is presented as a “milestone for obtaining green energy”, a perspective opened by the developing of recent nanotechnology. Nevertheless, this new approach is referring to both theoretical and experimental aspects, both equally needed in order to find a way to develop efficient and ecological photovoltaic devices. Finally, bondonic information for molecules activated in mesoscopic scale are determined while combining their FT-IR spectra with photovoltaic fill factor and metrological quantum triangle (electron tunneling, Josephson effect and quantum Hall effect) towards challenging new perspective of sub-quantum interaction in condensed nano-matter.

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