ARTICLE

2D Modeling of Solar Cell p-n Radial Junction: Study of Photocurrent Density and Quantum Efficiency in Static Mode under Monochromatic Illumination

2021
Smart Grid and Renewable Energy , 11 : 191-200

Lien de l'article : 10.4236/sgre.2020.1112012

Discipline : Sciences physiques

Auteur(s) : Raguilignaba Sam, Alain Diasso, Bernard Zouma, François

Auteur(s) tagués : ZOUMA Bernard

Renseignée par : ZOUMA Bernard

Résumé

A theoretical study of a polysilicon solar cell with a radial junction in static regime under monochromatic illumination is presented in this paper. The junction radial solar cell geometry is illustrated and described. The carriers’ diffusion equation is established and solved under quasi-neutral base assumption with boundaries conditions and Bessel equations. New analytical expressions of electrons and holes photocurrent density and quantum efficiency are found. The wavelength and structural parameters (base radius, base thickness and wavelength) influences on photocurrent density and quantum efficiency are carried out and examined.

Mots-clés

Grain Geometry, Photocurrent Density, Quantum Efficiency

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2D Modeling of Solar Cell p-n Radial Junction: Study of Photocurrent Density and Quantum Efficiency in Static Mode under Monochromatic Illumination

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