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Public Article
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    Tunable Photoluminescence via Thermally Evaporated ZnS Ultra Thin Films Authors

     
     
         
    ISSN: 2369 - 3355

    Publisher: author   

Tunable Photoluminescence via Thermally Evaporated ZnS Ultra Thin Films Authors
Indexed in Technology and Engineering
ARTICLE-FACTOR
 1.3
Article Basics Score: 2
Article Transparency Score: 3
Article Operation Score: 2
Article Articles Score: 3
Article Accessibility Score: 3
Article Problems
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International Category Code (ICC):
ICC-1802
Publisher: Lifescience Global Inc.
Authors: Yoshifumi Urakawa, Karen K. Gleason
International Journal Address (IAA):
IAA.ZONE/2369108533355
eISSN : 2369 - 3355 VALID ISSN Validator
Abstract ZnS thin films have been deposited by thermal evaporation at various deposition rates. By controlling the deposition rate, the position of the maximum in the photoluminescence spectra could be easily tuned from 2.9 to 2.0 eV, which produced a corresponding change in the emission color. The optical and morphological characteristics of the ZnS thin films were measured. The photoluminescence spectra had broad peaks, suggesting a distribution of ZnS nanocrystallites dimensions. Nanocrystallites dimensions were in the range of 1 nm to 3 nm via TEM analyses. The changes in optical properties were potentially attributable to the lattice defects of ZnS crystals, including Schottky defects and the substation of sulfur atoms by oxygen atoms. The color of the resulting light emission was obtained by controlling the deposition rate of ZnS
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