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Photo-Current Enhancement at Cu/P-Cu2O/rGO-Electrolyte Interface


Affiliations
1 Nano Technology Research Laboratory, Department of Electronics, Wayamba University of Sri Lanka, Sri Lanka
     

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A considerable photocurrent enhancement was found at the Cu/p-Cu2O/rGO-electrolyte interface in a photo-electrochemical cell with compared to that of Cu/p-Cu2O-electrolyte interface. The reason for the photocurrent enhancement may be due to the efficient charge separation process provided at Cu/p-Cu2O/rGO-electrolyte interface. Here rGO (reduced graphene oxide) acts as an electron acceptor for the photo-generated charge carriersas it readily accept electrons from the conduction band of p-Cu2O. rGO was synthesized using electro-phoretic deposition (EPD) technique. Fabricated samples were characterized using diffuse reflectance spectra, photocurrent action spectra and the time development of the photocurrent of photo-electrochemical cells.

Keywords

Photo-Current, Electrolyte Interface, Photo Electrochemical Cell.
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Abstract Views: 285

PDF Views: 3




  • Photo-Current Enhancement at Cu/P-Cu2O/rGO-Electrolyte Interface

Abstract Views: 285  |  PDF Views: 3

Authors

S. P. A. U. K. Samarakoon
Nano Technology Research Laboratory, Department of Electronics, Wayamba University of Sri Lanka, Sri Lanka
C. A. N. Fernando
Nano Technology Research Laboratory, Department of Electronics, Wayamba University of Sri Lanka, Sri Lanka

Abstract


A considerable photocurrent enhancement was found at the Cu/p-Cu2O/rGO-electrolyte interface in a photo-electrochemical cell with compared to that of Cu/p-Cu2O-electrolyte interface. The reason for the photocurrent enhancement may be due to the efficient charge separation process provided at Cu/p-Cu2O/rGO-electrolyte interface. Here rGO (reduced graphene oxide) acts as an electron acceptor for the photo-generated charge carriersas it readily accept electrons from the conduction band of p-Cu2O. rGO was synthesized using electro-phoretic deposition (EPD) technique. Fabricated samples were characterized using diffuse reflectance spectra, photocurrent action spectra and the time development of the photocurrent of photo-electrochemical cells.

Keywords


Photo-Current, Electrolyte Interface, Photo Electrochemical Cell.

References