J. P. Hirde scite author profile

Al~traet. CulnSe=o _zlS~x thin films were deposited by spray pyrolysis. Lattice parameters o and c, for all composition parameters X, were calculated from the Phillips X-ray dlffractometer. The structure remained tetragonal chateopyrite throughout, Optical band gap (E~) was determined for the composition parameter X from the transmittance study at room temperature. Variation of E~, a and c with X was found to be linear, Keywords, Ternary semiconductor compounds; spray pyrolysis; chalcopyrite structure.

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Structural, optical and electrical properties of spray pyrolytically deposited thin films of CuInS2

Tembhurkar

Hirde

1993

Bull. Mater. Sci.

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CuInS 2 is a promising chalcopyrite semiconducting material for solar cell fabrication. Using aqueous solutions of cupric chloride, indium trichloride and thiourea, we deposited thin CuInS 2 films on glass at 350°C and studied their structural, optical and electrical properties. From the XRD pattern the chalcopyrite structure of these films was confirmed. The films were polycrystalline. The grain size estimated from scanning electron mierographs was found to be of the order of 1/~m. Resistivity of the film was measured for temperatures ranging from 77 to 473 K. Band gap values were determined from optical transmission data. Hall mobility and carrier concentration at room temperature were calculated using Van der Pauw-Hall method.

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Spray-pyrolytically deposited n-CuInSe2/polysulphide photoelectrochemical solar cells

Tembhurkar

Hirde

1994

Bull. Mater. Sci.

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J. P. Hirde

Structural, optical and electrical properties of spray pyrolytically deposited films of copper indium diselenide

Band gap and structural parameter variation of CuInSe2(1-x)S2x solid-solution in the form of thin films

Structural, optical and electrical properties of spray pyrolytically deposited thin films of CuInS2

Spray-pyrolytically deposited n-CuInSe2/polysulphide photoelectrochemical solar cells

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