Kazuaki Tokumo scite author profile

Pyrochlore-type yttrium stannate (Y 2 Sn 2 O 7 ) doped with trivalent europium ions (Eu 3+ ) was synthesized as thin films by the sol-gel method. X-ray diffractometry, high-resolution transmission electron microscopy, and X-ray photoelectron spectroscopy were used to evaluate the crystallinity and purity of the films, which was of prime importance in investigating the optical properties. It was shown that heat treatment of the films at 1000°C was enough to obtain highly crystalline and phase-pure samples. Photoluminescence spectra of the (Y 1-x Eu x ) 2 Sn 2 O 7 (x ) 0.01-0.20) films indicated the simultaneous occurrence of five predominant orange-red band emissions at a single-wavelength ultraviolet excitation due to doubly split magnetic-dipole 5 D 0 f 7 F 1 and electric-dipole 5 D 0 f 7 F 2 transitions. Inhomogeneous broadening possibly arising from the site-to-site variation of Eu 3+ was also observed. These results demonstrate that we have succeeded in synthesizing a single-phase crystalline phosphor material having the chromaticity corresponding to a region between pink and yellowish pink.

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Chemical processing for inorganic fluoride and oxyfluoride materials having optical functions

Fujihara

Tokumo

2009

Journal of Fluorine Chemistry

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Multiband Orange‐Red Luminescence of Eu³⁺ Ions Based on the Pyrochlore‐Structured Host Crystal.

Fujihara

Tokumo

2005

ChemInform

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Luminescence D 6540Multiband Orange-Red Luminescence of Eu 3+ Ions Based on the Pyrochlore--Structured Host Crystal. -(Y1-xEux)2Sn2O7 (x = 0.01-0.20) films are synthesized by a sol-gel method from Y(OAc)3, Eu(OAc)3, and SnCl4. Highly crystalline and phase pure samples are obtained by treating the films at 1000°C. Photoluminescence spectra indicate the simultaneous occurrence of five predominant orange-red band emissions at a single-wavelength UV excitation. The chromaticity corresponds to a region between pink and yellowish pink in the CIE diagram which could make the material useful as a new reddish component in reproducing natural light in optical devices. -(FUJIHARA*, S.; TOKUMO, K.; Chem. Mater. 17 (2005) 22, 5587-5593; Dep. Appl. Chem., Fac. Sci. Technol., Keio Univ., Kohoku, Yokohama 223, Japan; Eng.) -W. Pewestorf 03-009

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ChemInform Abstract: Chemical Processing for Inorganic Fluoride and Oxyfluoride Materials Having Optical Functions

Fujihara

Tokumo

2010

ChemInform

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Kazuaki Tokumo

Multiband Orange-Red Luminescence of Eu³⁺ Ions Based on the Pyrochlore-Structured Host Crystal

Chemical processing for inorganic fluoride and oxyfluoride materials having optical functions

Multiband Orange‐Red Luminescence of Eu³⁺ Ions Based on the Pyrochlore‐Structured Host Crystal.

ChemInform Abstract: Chemical Processing for Inorganic Fluoride and Oxyfluoride Materials Having Optical Functions

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Kazuaki Tokumo

Multiband Orange-Red Luminescence of Eu3+ Ions Based on the Pyrochlore-Structured Host Crystal

Chemical processing for inorganic fluoride and oxyfluoride materials having optical functions

Multiband Orange‐Red Luminescence of Eu3+ Ions Based on the Pyrochlore‐Structured Host Crystal.

ChemInform Abstract: Chemical Processing for Inorganic Fluoride and Oxyfluoride Materials Having Optical Functions

Contact Info

Product

Resources

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Multiband Orange-Red Luminescence of Eu³⁺ Ions Based on the Pyrochlore-Structured Host Crystal

Multiband Orange‐Red Luminescence of Eu³⁺ Ions Based on the Pyrochlore‐Structured Host Crystal.