Photoluminescence of cubic and monoclinic Gd 2o 3: Eu phosphors prepared by spray flame synthesis

Yasuo Iwako, Yuki Akimoto, Masaki Omiya, Toshihisa Ueda, Takeshi Yokomori

Research output: Chapter in Book/Report/Conference proceedingConference contribution

1 Citation (Scopus)

Abstract

In this study, Gd 2O 3:Eu phosphors sized at around 1 μm with cubic and monoclinic phases were directly prepared in H 2/O 2-N 2 diffusion flame using gadolinium and europium nitric acids and distilled water as precursor solution. Phosphors with cubic and monoclinic phases were confirmed by XRD analysis and the photoluminescence intensity was improved to 1.9 times in cubic phase compared with monoclinic phase. Precursor was atomized by ultrasonic vibration at 1.7MHz and passed through the flame to be oxidized in the high temperature field. The temperature of the reaction field is regulated by varying the combination of fuel and oxidizing gases. The flame was shaped by the co-axial burner with H2 gas in the inner tube and oxidizing gas in the outer tube. The temperature of the reaction was controlled by the volume fraction of N2 in the oxidizing gas. The phosphor particles were examined by SEM, XRD analysis and photoluminescence spectrometer. All the phosphor particles synthesized in this method had spherical morphology. Gd 2O 3:Eu phosphors synthesized in the high temperature reaction field had a monoclinic phase structure while the phosphors synthesized in the low temperature reaction field had a cubic phase structure with higher photoluminescence intensity and narrower peak spectrum. Spray flame synthesis is a continuous process which can provide phosphor particles having spherical morphology and narrow spectrum with high photoluminescence.

Original languageEnglish
Title of host publicationAES-ATEMA International Conference Series - Advances and Trends in Engineering Materials and their Applications
Pages161-166
Number of pages6
Publication statusPublished - 2009
Event4th International Conference on Advances and Trends in Engineering Materials and their Applications, AES-ATEMA'2009 - Hamburg, Germany
Duration: 2009 Sep 12009 Sep 4

Other

Other4th International Conference on Advances and Trends in Engineering Materials and their Applications, AES-ATEMA'2009
CountryGermany
CityHamburg
Period09/9/109/9/4

Fingerprint

Flame synthesis
Phosphors
Photoluminescence
Gases
Phase structure
Europium
Nitric Acid
Temperature
Gadolinium
Nitric acid
Fuel burners
Vibrations (mechanical)
Spectrometers
Volume fraction
Temperature distribution
Ultrasonics
Scanning electron microscopy
Water

Keywords

  • Europium
  • Gadolinium
  • Morphology
  • Phosphor
  • Photoluminescence
  • Spray flame synthesis

ASJC Scopus subject areas

  • Mechanics of Materials
  • Materials Science(all)

Cite this

Iwako, Y., Akimoto, Y., Omiya, M., Ueda, T., & Yokomori, T. (2009). Photoluminescence of cubic and monoclinic Gd 2o 3: Eu phosphors prepared by spray flame synthesis. In AES-ATEMA International Conference Series - Advances and Trends in Engineering Materials and their Applications (pp. 161-166)

Photoluminescence of cubic and monoclinic Gd 2o 3 : Eu phosphors prepared by spray flame synthesis. / Iwako, Yasuo; Akimoto, Yuki; Omiya, Masaki; Ueda, Toshihisa; Yokomori, Takeshi.

AES-ATEMA International Conference Series - Advances and Trends in Engineering Materials and their Applications. 2009. p. 161-166.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Iwako, Y, Akimoto, Y, Omiya, M, Ueda, T & Yokomori, T 2009, Photoluminescence of cubic and monoclinic Gd 2o 3: Eu phosphors prepared by spray flame synthesis. in AES-ATEMA International Conference Series - Advances and Trends in Engineering Materials and their Applications. pp. 161-166, 4th International Conference on Advances and Trends in Engineering Materials and their Applications, AES-ATEMA'2009, Hamburg, Germany, 09/9/1.
Iwako Y, Akimoto Y, Omiya M, Ueda T, Yokomori T. Photoluminescence of cubic and monoclinic Gd 2o 3: Eu phosphors prepared by spray flame synthesis. In AES-ATEMA International Conference Series - Advances and Trends in Engineering Materials and their Applications. 2009. p. 161-166
Iwako, Yasuo ; Akimoto, Yuki ; Omiya, Masaki ; Ueda, Toshihisa ; Yokomori, Takeshi. / Photoluminescence of cubic and monoclinic Gd 2o 3 : Eu phosphors prepared by spray flame synthesis. AES-ATEMA International Conference Series - Advances and Trends in Engineering Materials and their Applications. 2009. pp. 161-166
@inproceedings{073614f9f2bc47e9b606bcd160f657e9,
title = "Photoluminescence of cubic and monoclinic Gd 2o 3: Eu phosphors prepared by spray flame synthesis",
abstract = "In this study, Gd 2O 3:Eu phosphors sized at around 1 μm with cubic and monoclinic phases were directly prepared in H 2/O 2-N 2 diffusion flame using gadolinium and europium nitric acids and distilled water as precursor solution. Phosphors with cubic and monoclinic phases were confirmed by XRD analysis and the photoluminescence intensity was improved to 1.9 times in cubic phase compared with monoclinic phase. Precursor was atomized by ultrasonic vibration at 1.7MHz and passed through the flame to be oxidized in the high temperature field. The temperature of the reaction field is regulated by varying the combination of fuel and oxidizing gases. The flame was shaped by the co-axial burner with H2 gas in the inner tube and oxidizing gas in the outer tube. The temperature of the reaction was controlled by the volume fraction of N2 in the oxidizing gas. The phosphor particles were examined by SEM, XRD analysis and photoluminescence spectrometer. All the phosphor particles synthesized in this method had spherical morphology. Gd 2O 3:Eu phosphors synthesized in the high temperature reaction field had a monoclinic phase structure while the phosphors synthesized in the low temperature reaction field had a cubic phase structure with higher photoluminescence intensity and narrower peak spectrum. Spray flame synthesis is a continuous process which can provide phosphor particles having spherical morphology and narrow spectrum with high photoluminescence.",
keywords = "Europium, Gadolinium, Morphology, Phosphor, Photoluminescence, Spray flame synthesis",
author = "Yasuo Iwako and Yuki Akimoto and Masaki Omiya and Toshihisa Ueda and Takeshi Yokomori",
year = "2009",
language = "English",
isbn = "9780978047962",
pages = "161--166",
booktitle = "AES-ATEMA International Conference Series - Advances and Trends in Engineering Materials and their Applications",

}

TY - GEN

T1 - Photoluminescence of cubic and monoclinic Gd 2o 3

T2 - Eu phosphors prepared by spray flame synthesis

AU - Iwako, Yasuo

AU - Akimoto, Yuki

AU - Omiya, Masaki

AU - Ueda, Toshihisa

AU - Yokomori, Takeshi

PY - 2009

Y1 - 2009

N2 - In this study, Gd 2O 3:Eu phosphors sized at around 1 μm with cubic and monoclinic phases were directly prepared in H 2/O 2-N 2 diffusion flame using gadolinium and europium nitric acids and distilled water as precursor solution. Phosphors with cubic and monoclinic phases were confirmed by XRD analysis and the photoluminescence intensity was improved to 1.9 times in cubic phase compared with monoclinic phase. Precursor was atomized by ultrasonic vibration at 1.7MHz and passed through the flame to be oxidized in the high temperature field. The temperature of the reaction field is regulated by varying the combination of fuel and oxidizing gases. The flame was shaped by the co-axial burner with H2 gas in the inner tube and oxidizing gas in the outer tube. The temperature of the reaction was controlled by the volume fraction of N2 in the oxidizing gas. The phosphor particles were examined by SEM, XRD analysis and photoluminescence spectrometer. All the phosphor particles synthesized in this method had spherical morphology. Gd 2O 3:Eu phosphors synthesized in the high temperature reaction field had a monoclinic phase structure while the phosphors synthesized in the low temperature reaction field had a cubic phase structure with higher photoluminescence intensity and narrower peak spectrum. Spray flame synthesis is a continuous process which can provide phosphor particles having spherical morphology and narrow spectrum with high photoluminescence.

AB - In this study, Gd 2O 3:Eu phosphors sized at around 1 μm with cubic and monoclinic phases were directly prepared in H 2/O 2-N 2 diffusion flame using gadolinium and europium nitric acids and distilled water as precursor solution. Phosphors with cubic and monoclinic phases were confirmed by XRD analysis and the photoluminescence intensity was improved to 1.9 times in cubic phase compared with monoclinic phase. Precursor was atomized by ultrasonic vibration at 1.7MHz and passed through the flame to be oxidized in the high temperature field. The temperature of the reaction field is regulated by varying the combination of fuel and oxidizing gases. The flame was shaped by the co-axial burner with H2 gas in the inner tube and oxidizing gas in the outer tube. The temperature of the reaction was controlled by the volume fraction of N2 in the oxidizing gas. The phosphor particles were examined by SEM, XRD analysis and photoluminescence spectrometer. All the phosphor particles synthesized in this method had spherical morphology. Gd 2O 3:Eu phosphors synthesized in the high temperature reaction field had a monoclinic phase structure while the phosphors synthesized in the low temperature reaction field had a cubic phase structure with higher photoluminescence intensity and narrower peak spectrum. Spray flame synthesis is a continuous process which can provide phosphor particles having spherical morphology and narrow spectrum with high photoluminescence.

KW - Europium

KW - Gadolinium

KW - Morphology

KW - Phosphor

KW - Photoluminescence

KW - Spray flame synthesis

UR - http://www.scopus.com/inward/record.url?scp=84856590981&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=84856590981&partnerID=8YFLogxK

M3 - Conference contribution

AN - SCOPUS:84856590981

SN - 9780978047962

SP - 161

EP - 166

BT - AES-ATEMA International Conference Series - Advances and Trends in Engineering Materials and their Applications

ER -