In6Se7 thin films by heating thermally evaporated indium and chemical bath deposited selenium multilayers

In6Se7 thin films by heating thermally evaporated indium and chemical bath deposited selenium multilayers

► This paper reports preparation of In6Se7 thin films by a non-toxic process of selenization using chemical bath deposited selenium. ► The structure, morphology, optical and electrical properties of In6Se7 thin films are described in this article. ► X-ray diffraction studies showed the formation of...

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Bibliographic Details
Published in:Applied surface science 2012-05, Vol.258 (15), p.5753-5758
Main Authors: Ornelas, R.E., Avellaneda, D., Shaji, S., Castillo, G.A., Roy, T.K. Das, Krishnan, B.
Format: Article
Language:eng
Subjects:
Chemical bath deposition
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Condensed matter: structure, mechanical and thermal properties
Cross-disciplinary physics: materials science
rheology
Exact sciences and technology
In6Se7 thin films
Photoconductivity
Physics
XRD
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Summary:► This paper reports preparation of In6Se7 thin films by a non-toxic process of selenization using chemical bath deposited selenium. ► The structure, morphology, optical and electrical properties of In6Se7 thin films are described in this article. ► X-ray diffraction studies showed the formation of monoclinic In6Se7. ► The effect of indium layer thickness and selenium deposition time on the structure, electrical and optical properties of In6Se7 thin films is described. ► This material is having good scope as a photovoltaic material. Indium selenide (In6Se7) thin films were prepared via selenization of thermally evaporated indium thin films by dipping in sodium selenosulphate solution followed by annealing in nitrogen atmosphere. First, indium was thermally evaporated on glass substrate. Then, the indium coated glass substrates were dipped in a solution containing 80ml 0.125M sodium selenosulphate and 1.5ml dilute acetic acid (25%) for 5min. Glass/In–Se layers were annealed at 200–400°C in nitrogen atmosphere (0.1Torr) for 30min. X-ray diffraction studies showed the formation of monoclinic In6Se7. Morphology of the thin films formed at different conditions was analyzed using Scanning electron microscopy. The elemental analysis was done using Energy dispersive X-ray detection. Electrical conductivity under dark and illumination conditions was evaluated. Optical band gap was computed using transmittance and reflectance spectra. The band gap value was in the range 1.8–2.6eV corresponding to a direct allowed transition. We studied the effect of indium layer thickness and selenium deposition time on the structure, electrical and optical properties of In6Se7 thin films.
ISSN:0169-4332
1873-5584