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Optimal Location of the Intermediate Band Gap Energy in the Intermediate Band Solar Cell

Publish Year: 1401
Type: Journal paper
Language: English
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JR_TDMA-11-4_003

Index date: 2 March 2023

Optimal Location of the Intermediate Band Gap Energy in the Intermediate Band Solar Cell abstract

The purpose of this study is to determine the optimum location for intermediate band in the middle of band gap of an ideal solar cell for maximum performance. By changing the location of the intermediate band, output current and therefore performance can be changed. Choosing the best location in terms of solar cell energy gap and how to change the performance by means of the location of intermediate band has the important role in the energy band gap engineering. This matter in the known methods of the intermediate bands realization such as quantum well and quantum dots can be used for selecting the type of semiconductor in quantum well or quantum dot and also for selecting dimension of quantum dot or quantum well. Conclusion of this paper is by increasing energy gap, the optimal location of intermediate band for cells with one intermediate band, will be closer to the middle of the energy gap.

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Optimal Location of the Intermediate Band Gap Energy in the Intermediate Band Solar Cell authors

Mohammad Ershadi

Department of Skills and Entrepreneurship, Isfahan Branch, Islamic Azad University, Isfahan, Iran

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Shockley W. & Queisser H. J. “Detailed balance limit of ...
Luque A. & Marti A. “Increasing the efficiency of ideal ...
Andrew S. Brown and Martin A. Green “Intermediate band solar ...
Luque A. Linares P. G. Antolin E. Canovas E. Farmer ...
Nozawa T. and Arakawa Y. “Detailed balance limit of the ...
Henry C. H. , J. Appl. Phys. ۵۱, ۴۴۹۴, (۱۹۸۰) ...
Luque A. and Marti A. “Photovoltaics: Towards the intermediate band”. ...
Luque A. Marti A. and Stanley C. “Understanding intermediate band ...
Bruns, W. Seifert, P. Wawer, H. Winnicke, D. Braunig, and ...
J. Keevers and M. A. Green, Sol. Energy Mater. Sol. ...
Kasai, T. Sato, and H. Matsumura, “Impurity photovoltaic effect in ...
P. Bremner, R. Corkish, and C. B. Honsberg, “Detailed balance ...
Green, “Prospects for photovoltaic efficiency enhancement using low-dimensional structures,” Nanotechnology, ...
Barnham, B. Braun, J. Nelson, M. Paxman, C. Button, J. ...
Mart´ı, L. Cuadra, and A. Luque, “Quantum dot intermediate band ...
Mart´ı, E. Antol´ın, C. Stanley, C.Farmer, N. L´opez, P. D´ıaz, ...
G. Norman, M. C. Hanna, P. Dippo, D. H. Levi, ...
Y. Levy and C. Honsberg, “Nanostructured absorbers for multiple transition ...
Yu, W. Walukiewicz, J.W. Ager III, D. Bour, R. Farshchi, ...
Shan, W. Walukiewicz, J.W. Ager III, E. Haller, J. Geisz, ...
Walukiewicz, K. Yu, J. Wu, J.W. Ager III, W. Shan, ...
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