Color eletroluminescence from ZnS thin films multi-doped with rare-earth ions

The electroluminescence (EL) cell is made from thin films formed by the co-evaporation of ZnS and rare-earth metals. The radiation from this cell is caused by electron transitions between the levels of rare-earth ions. In this study we determine the relationship between the concentration of the rare...

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Veröffentlicht in:	Journal of Light & Visual Environment 1979, Vol.3(1), pp.1_12-1_17
Hauptverfasser:	KURITA, Shoichi, TAKAHASHI, Shinichi, SAKAGUCHI, Toshihiko
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Sprache:	eng
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container_end_page	1_17
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container_title	Journal of Light & Visual Environment
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creator	KURITA, Shoichi TAKAHASHI, Shinichi SAKAGUCHI, Toshihiko
description	The electroluminescence (EL) cell is made from thin films formed by the co-evaporation of ZnS and rare-earth metals. The radiation from this cell is caused by electron transitions between the levels of rare-earth ions. In this study we determine the relationship between the concentration of the rare-earth ions and the luminous spectral intensity in the EL cell and the applied voltage. The luminescence center of rare-earth ions in ZnS is localized center. If the ZnS is activated by two different rare-earth ions then the resultant emission color is the sum of two individual emission colors. Thus the emission color can be changed, as desired by controlling the concentrations of rare-earth ions. On the other hand it is observed that the spectrum of an EL cell containing several kinds of rare-earth ions changes when the applied voltage changes.
doi_str_mv	10.2150/jlve.3.1_12
format	Article
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The radiation from this cell is caused by electron transitions between the levels of rare-earth ions. In this study we determine the relationship between the concentration of the rare-earth ions and the luminous spectral intensity in the EL cell and the applied voltage. The luminescence center of rare-earth ions in ZnS is localized center. If the ZnS is activated by two different rare-earth ions then the resultant emission color is the sum of two individual emission colors. Thus the emission color can be changed, as desired by controlling the concentrations of rare-earth ions. 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title	Color eletroluminescence from ZnS thin films multi-doped with rare-earth ions
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