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An Equivalent Circuit Approach To Organic Solar Cell Modelling

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Wed, 2011-03-09 11:24 — Hikmat S. Hilal, D.Sc.
Journal Title, Volume, Page: 
Microelectronics Journal Volume 39, Issue 10, October 2008, Pages 1173-1180
Year of Publication: 
2008
Link: 
http://www.sciencedirect.com/science/article/pii/S0026269208001134
Authors: 
Hikmat S. HILAL
An-Najah N. University, P.O. Box 7, Nablus, West Bank, Palestine
Current Affiliation: 
Department of Chemistry, An-Najah N. University, Nablus, P.O. Box 7, West Bank, Palestine
[email protected]
Ali CHEKNANE
Laboratoire d’Etude et De´veloppement des Mate´riaux Semiconducteurs et Die´lectriques, Universite´ Amar Telidji de Laghouat, BP 37G, route de Ghardaı¨a, Laghouat (03000), Alge´rie
Fayçal Djeffal
LEA, Department of Electronics, University of Batna, Algeria
Boumediène BENYOUCEF
Unite´ de Recherche Mate´riaux et Energies Renouvelables, Universite´ Abou Bakar Belkaid de Tlemcen, Alge´rie
Jean-Pierre CHARLES5
LMOPS-CNRS UMR 7132, SUPELEC, 2 rue Edouard Belin, 57070 Metz, France
Preferred Abstract (Original): 

In this paper, we present a simulation study for a newly prepared organic solar cell, based on a composite of poly (2-methoxy-5-(2′-ethylhexyloxy)-1, 4-phenylenevinylene (MEH-PPV) with [6, 6]-phenyl C60 butyric acid methyl ester (PCBM). Photo-current density vs. voltage (J–V) characteristics, for the cell, which were experimentally studied earlier, have been revisited here. The results indicated that the conduction mechanism in the organic solar cell is strongly influenced by the excitonic diffusion. Sound correlation, between theoretical and experimental photo-current density vs. voltage (J–V) plots, has been achieved. Moreover, the simulation clearly demonstrates that the performance of the tested device can be described, with sound accuracy, by a two-diode-equivalent model.

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