Détails Publication
Numerical Characterization of Cu(In,Ga)Se2 Solar Cells Using Capacitance-Voltage and Capacitance-Frequency Characteristics,
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Discipline: Science des matériaux
Auteur(s): Daouda Oubda, Marcel B. Kebré, Soumaïla Ouédraogo, François Zougmoré, Frédéric Ouattara, Zacharie Koalga
Auteur(s) tagués: KEBRE Bawindsom Marcel
Renseignée par : KEBRE Bawindsom Marcel
Résumé

The paper presents the effects of buffer layer thickness, operating temperature, and series resistances on the capacitance-voltage and capacitance-frequency (C-f) characteristics of the standard ZnO/CdS/OVC/Cu(In,Ga)Se2/Mo thin film solar cells.
The numerical simulation tool used is a one dimensional program: Solar Cell Capacitance Simulator (SCAPS). We found that, the junction capacitance value increases when the recombination rate of carrier becomes important resulting in an increasing of electrical field intensity. Series resistances (Rs) are factors limiting the solar cells performance. This paper proposes a theoretical model where the effects of Rs onto the solar cell are minimized. For a better optimization of solar cell model performance we get a value of Rs ≤1 Ω*cm², Rsh≥1000 Ω*cm² and the operating temperature to the order of 260 to 380 K.

Mots-clés

Buffer layer; Operating temperature; Rs; Recombination rate; Electrical field intensity; Capacitance value.

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