Marcel Sitor Diouf scite author profile

Marcel Sitor Diouf

5Publications

71Citation Statements Received

49Citation Statements Given

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Back Surface Recombination Velocity Modeling in White Biased Silicon Solar Cell under Steady State

Diasse¹,

Diao²,

Wade³

et al. 2018

JMP

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In this paper, we extend the concept of back surface recombination through a study of a silicon mono facial solar cell in static regime and under polychromatic illumination. Back surface recombination velocities noted Sbe , Sbj and Sbr are determined for which respectively we derived, the power, the fill factor and the conversion efficiency, that become constant whatever the thickness of the solar cell. We have then obtained the expression of the minority carrier's density in the base from the continuity equation. We then have determined the photocurrent density, the photo voltage, the power, the fill factor and finally the conversion efficiency.

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AC Recombination Velocity in the Back Surface of a Lamella Silicon Solar Cell under Temperature

Traore¹,

Thiam²,

Thiame³

et al. 2019

JMP

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The ac recombination velocity of the excess minority carriers, in the back surface of a silicon solar cell with a vertical junction connected in series, is developed through Einstein's law giving the diffusion coefficient of minority carriers according to temperature, through mobility. The frequency spectrum of both, amplitude and phase, are produced for the diffusion coefficient and the recombination velocity in the rear face, in order to identify the parameters of equivalent electric models.

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Temperature Effect on Capacitance of a Silicon Solar Cell under Constant White Biased Light

Diatta¹,

Ly²,

Wade³

et al. 2016

WJCMP

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In static regime with polychromatic illumination, using the expression of the solar cell capacitance to determine the silicon solar cell capacitance C 0 (T) in short-circuit, is the purpose of this article. The expression of the excess minority carries density δ(x) from the continuity equation. The expression of δ(x) is used to determine the photovoltage expression. The capacitance efficiency dependence on X cc (T) is studied. X cc (T) is the abscissa of the maximum of δ(x).

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Influence of Temperature and Frequency on Minority Carrier Diffusion Coefficient in a Silicon Solar Cell under Magnetic Field

Diouf¹,

Ndiaye²,

Thiam³

et al. 2019

EPE

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Optimum Thickness Determination Technique as Applied to a Series Vertical Junction Silicon Solar Cell Under Polychromatic Illumination: Effect of Irradiation

Dia¹,

Moujtaba²,

Gueye³

et al. 2020

IJAR

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