Theoretical and experimental investigations of intermediate bands in ZnS–Mg nanocrystalline thin film photosensor

The electronic structure of ZnS and Mg-doped ZnS thin films were calculated by first principle investigation within the density functional theory. For experimental analysis, the ZnS and Mg–ZnS samples were grown by simple one step, chemical bath deposition on a glass substrates. The electronic struc...

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Bibliographic Details
Published in:Journal of materials science. Materials in electronics 2017-10, Vol.28 (20), p.15161-15167
Main Authors: Dive, Avinash S., Huse, Nanasaheb P., Gattu, Ketan P., Birajdar, Ravikiran B., Upadhyay, Devesh R., Sharma, Ramphal
Format: Article
Language:English
Subjects:
Band theory
Banded structure
Characterization and Evaluation of Materials
Chemistry and Materials Science
Crystal structure
Density functional theory
Electronic structure
Energy gap
Glass substrates
Materials Science
Optical and Electronic Materials
Optical properties
Photosensitivity
Raman spectra
Thin films
Wurtzite
Zinc sulfide
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Summary:The electronic structure of ZnS and Mg-doped ZnS thin films were calculated by first principle investigation within the density functional theory. For experimental analysis, the ZnS and Mg–ZnS samples were grown by simple one step, chemical bath deposition on a glass substrates. The electronic structure reveals the systematic formation of the intermediate band through Mg substitution in wurtzite ZnS at zinc site. This result is well correlated with the experimental results. The structural results obtained from X-ray diffraction study showed hexagonal wurtzite crystal structure with average crystallite size 23 and 21 nm for ZnS and Mg–ZnS respectively. It is observed from UV–Vis spectra that the energy band gap decreases with Mg content due to the creation of new intermediate bands in the band gap region. Raman spectra obtained from the pure and Mg–ZnS films exhibit the longitudinal optical phonon modes. Photosensing properties of the as-grown ZnS and Mg–ZnS thin films were studied by I-V measurements, the photosensitivity was found to be 92 and 96% respectively.
ISSN:0957-4522
1573-482X
DOI:10.1007/s10854-017-7393-5