2021
DOI: 10.4236/epe.2021.135014
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Back Illuminated N/P/P<sup>+</sup> Bifacial Silicon Solar Cell under Modulated Short-Wavelength: Determination of Base Optimum Thickness

Abstract: A bifacial silicon solar cell under monochromatic illumination in frequency modulation by the rear side is being studied for the optimization of base thickness. The density of photogenerated carriers in the base is obtained by resolution of the continuity equation, with the help of boundary conditions at the junction surface (n + /p) and the rear face (p/p + ) of the base. For a short wavelength corresponding to a high absorption coefficient, the AC photocurrent density is calculated and represented according … Show more

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Cited by 9 publications
(18 citation statements)
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“…3). It is the same with the effect of the doping rate [36,37 ] which reduces the amplitude of the maximum of the density of the minority charge carriers and its displacement towards the junction, when Nb increases. For Sf greater than 10 4 𝑐𝑚/𝑠 the dynamic photocurrent density modulus (Fig.…”
Section: Profile Of the Profile Of The Modulus Of The Dynamic Diffusi...mentioning
confidence: 68%
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“…3). It is the same with the effect of the doping rate [36,37 ] which reduces the amplitude of the maximum of the density of the minority charge carriers and its displacement towards the junction, when Nb increases. For Sf greater than 10 4 𝑐𝑚/𝑠 the dynamic photocurrent density modulus (Fig.…”
Section: Profile Of the Profile Of The Modulus Of The Dynamic Diffusi...mentioning
confidence: 68%
“…7 and 8) corresponds to the short-circuit current density, which decreases slightly with the doping rate at low modulation frequencies. On the other hand, at high modulation frequencies, the amplitude of the short-circuit current density increases more drastically with the doping rate [36,37] because the maximum density of charge minority carriers shifts towards the junction, when Nb increases.…”
Section: Profile Of the Profile Of The Modulus Of The Dynamic Diffusi...mentioning
confidence: 99%
“…3). Il en est de même avec l'effet du taux dopage [36,37] qui réduit l'amplitude du maximum de la densité des porteurs minoritaires de charge et son déplacement vers la jonction, lorsque Nb croît.…”
Section: Profil Du Module Du Coefficient Dynamique De Diffusion En Fo...unclassified
“…7 et 8), correspond à la densité de courant de court-circuit, qui décroit légèrement avec le taux de dopage aux faibles fréquences de modulation. Par contre aux grandes fréquences de modulation, l'amplitude de la densité du courant de court-circuit augmente de façon plus drastique avec le taux de dopage [36,37] parce que le maximum de la densité des porteurs minoritaires de charge se déplace vers la jonction, lorsque Nb croît.…”
Section: Profil De La Densité Du Photocourant En Fonction De La Vites...unclassified
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