Preparation of novel phosphor using intercalation of tobermorite

The emission intensity of phosphors is often subject to concentration quenching after doping of the activator in the host crystal rises above a certain limit. This study describes the preparation of novel phosphors based on tobermorite that do not exhibit concentration quenching. In the preparation...

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Published in	Journal of luminescence Vol. 129; no. 7; pp. 751 - 754
Main Authors	Kojima, Yoshiyuki, Kamei, Shinnosuke, Toyama, Takeshi, Nishimiya, Nobuyuki
Format	Journal Article
Language	English
Published	Amsterdam Elsevier B.V 01.07.2009 Elsevier
Subjects	Amorphous Concentration quenching Condensed matter: electronic structure, electrical, magnetic, and optical properties Exact sciences and technology Intercalation Optical properties and condensed-matter spectroscopy and other interactions of matter with particles and radiation Other solid inorganic materials Phosphor Photoluminescence Physics Red-emitting Tobermorite Red-emitting Amorphous Tobermorite Intercalation Phosphor Concentration quenching Impurity density Doping Photoluminescence Heat treatments Europium additions Energy-level transitions Phosphors
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ISSN	0022-2313 1872-7883
DOI	10.1016/j.jlumin.2009.02.008

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Abstract	The emission intensity of phosphors is often subject to concentration quenching after doping of the activator in the host crystal rises above a certain limit. This study describes the preparation of novel phosphors based on tobermorite that do not exhibit concentration quenching. In the preparation of phosphors, Eu 3+ ions are exchanged with intercalated Ca 2+ ions within the tobermorite by dipping in EuCl 3 solution. The emission intensity of the Eu 3+ doped tobermorite increased with increasing Eu/Ca atomic ratio and attained a maximum value of 8.6% for a Eu/Ca atomic ratio of 0.22. Heating of the phosphor at 800 °C resulted in a three-fold improvement in emission intensity.
AbstractList	The emission intensity of phosphors is often subject to concentration quenching after doping of the activator in the host crystal rises above a certain limit. This study describes the preparation of novel phosphors based on tobermorite that do not exhibit concentration quenching. In the preparation of phosphors, Eu 3+ ions are exchanged with intercalated Ca 2+ ions within the tobermorite by dipping in EuCl 3 solution. The emission intensity of the Eu 3+ doped tobermorite increased with increasing Eu/Ca atomic ratio and attained a maximum value of 8.6% for a Eu/Ca atomic ratio of 0.22. Heating of the phosphor at 800 °C resulted in a three-fold improvement in emission intensity.
Author	Kojima, Yoshiyuki Kamei, Shinnosuke Toyama, Takeshi Nishimiya, Nobuyuki
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Keywords	Red-emitting Amorphous Tobermorite Intercalation Phosphor Concentration quenching Impurity density Doping Photoluminescence Heat treatments Europium additions Energy-level transitions Phosphors
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SubjectTerms	Amorphous Concentration quenching Condensed matter: electronic structure, electrical, magnetic, and optical properties Exact sciences and technology Intercalation Optical properties and condensed-matter spectroscopy and other interactions of matter with particles and radiation Other solid inorganic materials Phosphor Photoluminescence Physics Red-emitting Tobermorite
Title	Preparation of novel phosphor using intercalation of tobermorite
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