International audienceIn2S3 thin films were prepared using chemical spray pyrolysis technique. An aqueous solution of InCl3 and CS(NH2)2 was sprayed on to glass substrates and kept at 300 °C, using air as a carrier gas. Stoichiometry of the films was varied by adjusting the molarity of the spray solution. Structure and properties of films with different S/In ratios have been investigated. Raman spectroscopy present bands at 302 and 329 cm-1 indicating the presence of the β-phase in all the films. Optical transmittance of films is over 80% in the visible region and its energy band gap decreases from 2.7 to 2.67 ev. PL emission in the wavelength range 300-800 nm was recorded
In2S3 thin films were deposited onto indium tin oxide-coated glass substrates by chemical spray pyr...
AbstractIn2S3 films were grown by pneumatic chemical spray method using aqueous and alcoholic soluti...
Indium sulphide has been extensively investigated as a component for different kind of photovoltaic ...
International audienceIn2S3 thin films were prepared using chemical spray pyrolysis technique. An aq...
International audienceIn2S3 thin films were prepared using chemical spray pyrolysis technique. An aq...
International audienceIn2S3 thin films were prepared using chemical spray pyrolysis technique. An aq...
AbstractIn2S3 films were grown by pneumatic chemical spray method using aqueous and alcoholic soluti...
We have studied the structural, morphological and optical properties of In2S3 layers deposited on gl...
We have studied the structural, morphological and optical properties of In2S3 layers deposited on gl...
We have studied the structural, morphological and optical properties of In2S3 layers deposited on gl...
We have studied the structural, morphological and optical properties of In2S3 layers deposited on gl...
International audienceSilver doped indium sulfide thin films were deposited on ordinary glass substr...
International audienceSilver doped indium sulfide thin films were deposited on ordinary glass substr...
Polycrystalline In2S3 thin films were grown on glass substrates by means of chemical spray pyrolysis...
International audienceSilver doped indium sulfide thin films were deposited on ordinary glass substr...
In2S3 thin films were deposited onto indium tin oxide-coated glass substrates by chemical spray pyr...
AbstractIn2S3 films were grown by pneumatic chemical spray method using aqueous and alcoholic soluti...
Indium sulphide has been extensively investigated as a component for different kind of photovoltaic ...
International audienceIn2S3 thin films were prepared using chemical spray pyrolysis technique. An aq...
International audienceIn2S3 thin films were prepared using chemical spray pyrolysis technique. An aq...
International audienceIn2S3 thin films were prepared using chemical spray pyrolysis technique. An aq...
AbstractIn2S3 films were grown by pneumatic chemical spray method using aqueous and alcoholic soluti...
We have studied the structural, morphological and optical properties of In2S3 layers deposited on gl...
We have studied the structural, morphological and optical properties of In2S3 layers deposited on gl...
We have studied the structural, morphological and optical properties of In2S3 layers deposited on gl...
We have studied the structural, morphological and optical properties of In2S3 layers deposited on gl...
International audienceSilver doped indium sulfide thin films were deposited on ordinary glass substr...
International audienceSilver doped indium sulfide thin films were deposited on ordinary glass substr...
Polycrystalline In2S3 thin films were grown on glass substrates by means of chemical spray pyrolysis...
International audienceSilver doped indium sulfide thin films were deposited on ordinary glass substr...
In2S3 thin films were deposited onto indium tin oxide-coated glass substrates by chemical spray pyr...
AbstractIn2S3 films were grown by pneumatic chemical spray method using aqueous and alcoholic soluti...
Indium sulphide has been extensively investigated as a component for different kind of photovoltaic ...
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