Your search keyword '"Bahfir, A."' showing total 4 results

1. High efficiency silicon solar cells with back ZnTe layer hosting IPV effect: a numerical case study

Author

M. Boumaour, S. Sali, S. Kermadi, L. Zougar, A. Bahfir, and Z. Chaieb

Subjects

silicon solar cell, impurity photovoltaic effect, znte:o, scaps simulator, Science (General), Q1-390

Abstract

To get enhanced long-wavelength absorption, an impurity photovoltaic (IPV) mechanism was implemented within a transparent conducting oxide (TCO) at the rear of a solar cell. The numerical simulation of the N+/P (silicon)/IPV-TCO device was carried out by using SCAPS-1D program which allows the inclusion of optically active defects. In the proposed heterostructure configuration, ZnTe is a suitable material as back surface reflector. In analyzing the Si/ZnTe interface, lattice mismatch, energy band alignment and defects density were considered with appropriate treatment. In particular, to cure the detrimental 12% lattice mismatch at the interface, a thin silicon amorphous layer was inserted in-between, allowing 22.98% conversion efficiency. With adapted ZnTe Lucovsky's model for the optical capture cross sections and introduction of an oxygen radiative IPV defect (O2 level at 0.4 eV below the conduction band), a conversion efficiency of 27.15% was ultimately achieved. The experimental feasibility of the high-efficiency heterostructure device is evaluated.

Published

2019

2. Numerical Study of TCO/Silicon Solar Cells with Novel Back Surface Field

Author

Boumaour, M., Sali, S., Bahfir, A., Kermadi, S., Zougar, L., Ouarab, N., and Larabi, A.

Published

2016

3. High efficiency silicon solar cells with back ZnTe layer hosting IPV effect: a numerical case study

Author

Z. Chaieb, M. Boumaour, S. Kermadi, A. Bahfir, L. Zougar, and S. Sali

Subjects

Materials science, Silicon, Oxide, chemistry.chemical_element, 02 engineering and technology, silicon solar cell, 01 natural sciences, 010305 fluids & plasmas, law.invention, chemistry.chemical_compound, law, Impurity, 0103 physical sciences, Solar cell, Absorption (electromagnetic radiation), lcsh:Science (General), Silicon solar cell, impurity photovoltaic effect, business.industry, Photovoltaic system, znte:o, 021001 nanoscience & nanotechnology, chemistry, Optoelectronics, scaps simulator, 0210 nano-technology, business, Layer (electronics), lcsh:Q1-390

Abstract

To get enhanced long-wavelength absorption, an impurity photovoltaic (IPV) mechanism was implemented within a transparent conducting oxide (TCO) at the rear of a solar cell. The numerical simulation of the N+/P (silicon)/IPV-TCO device was carried out by using SCAPS-1D program which allows the inclusion of optically active defects. In the proposed heterostructure configuration, ZnTe is a suitable material as back surface reflector. In analyzing the Si/ZnTe interface, lattice mismatch, energy band alignment and defects density were considered with appropriate treatment. In particular, to cure the detrimental 12% lattice mismatch at the interface, a thin silicon amorphous layer was inserted in-between, allowing 22.98% conversion efficiency. With adapted ZnTe Lucovsky's model for the optical capture cross sections and introduction of an oxygen radiative IPV defect (O2 level at 0.4 eV below the conduction band), a conversion efficiency of 27.15% was ultimately achieved. The experimental feasibility of the high-efficiency heterostructure device is evaluated.

Published

2019

4. High efficiency silicon solar cells with back ZnTe layer hosting IPV effect: a numerical case study

Author

Boumaour, M., primary, Sali, S., additional, Kermadi, S., additional, Zougar, L., additional, Bahfir, A., additional, and Chaieb, Z., additional

Published

2019