Preparation and optical properties of lamellar GaSe-ZnSe nanocomposites
CZU: 536.421.5+535
Authors:
Caraman, Mihail; Untila, Dumitru; Canţer, Valeriu; Evtodiev, Igor; Caraman, Iuliana; Sușu, Oana; Leontie, Liviu
Summary:
ZnSe-GaSe nanocomposite plates photoluminescent in a photon energy range of 1.80−2.64 eV were obtained via exposing GaSe single-crystal plates to a Zn-vapor heat treatment at temperatures of 673−873 K. The photoluminescence spectrum is dominated by the self-activated emission band of ZnSe with a maximum at 2.04 eV. The average size of the ZnSe crystallites is ~45 nm. The absorption spectrum of the composite consists of two regions characteristic of direct optical transitions in GaSe crystals with a band gap of 1.99 eV and ZnSe crystallites with a band gap of 2.56 eV at room temperature.
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BibTeX
@article{ibn_43390,
author = {Caraman, M.I. and Untila, D.A. and Canţer, V.G. and Evtodiev, I.A. and Caraman, I.M. and Sușu, O. and Leontie, L.},
title = {Preparation and optical properties of lamellar GaSe-ZnSe nanocomposites},
journal = {Moldavian Journal of the Physical Sciences},
year = {2015},
volume = {14 (1-2)},
pages = {61-68},
month = {Nov},
abstract = {(EN) ZnSe-GaSe nanocomposite plates photoluminescent in a photon energy range of 1.80−2.64 eV were obtained via exposing GaSe single-crystal plates to a Zn-vapor heat treatment at temperatures of 673−873 K. The photoluminescence spectrum is dominated by the self-activated emission band of ZnSe with a maximum at 2.04 eV. The average size of the ZnSe crystallites is ~45 nm. The absorption spectrum of the composite consists of two regions characteristic of direct optical transitions in GaSe crystals with a band gap of 1.99 eV and ZnSe crystallites with a band gap of 2.56 eV at room temperature. },
url = {https://ibn.idsi.md/vizualizare_articol/43390},
}
DataCite
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Dublin Core
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