L. Djellal scite author profile

The morphology, optical characterization and transport properties of dense material CuIn 3 Se 5 have been reported. CuIn 3 Se 5 was synthesized by the fusion technique in a sealed quartz ampoule. The ingots were polycrystalline and the phase crystallizes in a P-chalcopyrite structure. The XRD pattern confirms the formation of the ordered vacancy compound. The composition (Cu = 13.3 at%, In = 31.5 at%, Se = 55.2 at%), established by energy dispersive spectroscopy, is close to the stoichiometric formulation. A band gap of 1.19 eV has been obtained from the diffuse reflectance spectrum. CuIn 3 Se 5 exhibits semi-conducting behavior with an activation energy of 0.52 eV. The thermal variation of the thermopower indicates that the charge carriers are electrons and the conduction occurs predominantly by small polaron hopping. The dissolution rate, determined through dissolved copper, was found to be 1.2 µmol m −2 /year in the KCl electrolyte. The results give deeper insights into the photoelectrochemical properties investigated for the first time on the dense material. The capacitance measurement indicates linear behavior from which a flat band potential V fb of −0.22 V SCE and a doping density N D of 3.75 × 10 16 cm −3 were determined. The energy band diagram shows the potentiality for solar energy conversion. The complex impedance pattern is circular in the low frequency region and tends to a straight line in the high frequency one, attributed to the ionic diffusion.

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Physical, photoelectrochemical properties of CuIn3Se5 and relevance for hydrogen production

Djellal

Bellal

Trari

2012

Materials Chemistry and Physics

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Physical and photoelectrochemical properties of p-CuInSe2 bulk material

Djellal

Bouguelia

Trari

2008

Materials Chemistry and Physics

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L. Djellal

Photoelectrochemical hydrogen-evolution over p-type chalcopyrite CuInSe2

Bulk p-CuInSe2 photo-electrochemical solar cells

Structural, optical and photoelectrochemical properties of CuIn₃Se₅

Physical, photoelectrochemical properties of CuIn3Se5 and relevance for hydrogen production

Physical and photoelectrochemical properties of p-CuInSe2 bulk material

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L. Djellal

Photoelectrochemical hydrogen-evolution over p-type chalcopyrite CuInSe2

Bulk p-CuInSe2 photo-electrochemical solar cells

Structural, optical and photoelectrochemical properties of CuIn3Se5

Physical, photoelectrochemical properties of CuIn3Se5 and relevance for hydrogen production

Physical and photoelectrochemical properties of p-CuInSe2 bulk material

Contact Info

Product

Resources

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Structural, optical and photoelectrochemical properties of CuIn₃Se₅