Comparison between MgGa2O4:Mn2+ and ZnGa2O4:Mn2+ nanophosphors synthesized by glycothermal method

M. Osada; M. Takesada; T. Isobe

Comparison between MgGa₂O₄:Mn²⁺ and ZnGa₂O₄:Mn²⁺ nanophosphors synthesized by glycothermal method

M. Osada, M. Takesada, T. Isobe

Department of Applied Chemistry

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

4 Citations (Scopus)

Abstract

MgGa₂O₄:Mn²⁺ (MGM) and ZnGa ₂O₄:Mn²⁺ (ZGM) nanophosphors were synthesized in 1,4-butanediol by glycothermal method at 300°C for 2h. The optimum photoluminescence (PL) intensity of MGM at 0.5 mol% Mn is higher than that of ZGM at 3.0 mol% Mn. We discuss this reason from several points of view. Transmission electron microscopy reveals that the particle size of MGM is smaller than that of ZGM. The X-ray diffraction peaks of MGM are broader than those of ZGM. These results cannot explain the higher PL intensity of MGM. The electron paramagnetic resonance spectroscopy and the PL decay analysis reveal that the homogeneity of Mn²⁺ ions in MGM is higher than that of ZGM, resulting in the more efficient PL process for MGM. The high homogeneity of Mn²⁺ ions is possibly attributed to the formation of MGM from the low-crystallized glycoxide precursor with a homogeneous mixture of different metallic ions. In contrast, ZGM could be formed by the crystallization of ZnGa₂O₄, followed by the incorporation of Mn²⁺ ions into ZnGa₂O₄.

Original language	English
Title of host publication	ECS Transactions - Physics and Chemistry of Luminescent Materials, Including the 4th Symposium on Persistent Phosphors
Pages	75-80
Number of pages	6
Edition	31
Publication status	Published - 2009 Nov 25
Event	Physics and Chemistry of Luminescent Materials, Including the 4th Symposium on Persistent Phosphors - 214th ECS Meeting - Honolulu, HI, United States Duration: 2008 Oct 12 → 2008 Oct 17

Publication series

Name	ECS Transactions
Number	31
Volume	16
ISSN (Print)	1938-5862
ISSN (Electronic)	1938-6737

Other

Other	Physics and Chemistry of Luminescent Materials, Including the 4th Symposium on Persistent Phosphors - 214th ECS Meeting
Country/Territory	United States
City	Honolulu, HI
Period	08/10/12 → 08/10/17

ASJC Scopus subject areas

Engineering(all)

Cite this

Comparison between MgGa₂O₄:Mn²⁺ and ZnGa₂O₄:Mn²⁺ nanophosphors synthesized by glycothermal method. / Osada, M.; Takesada, M.; Isobe, T.
ECS Transactions - Physics and Chemistry of Luminescent Materials, Including the 4th Symposium on Persistent Phosphors. 31. ed. 2009. p. 75-80 (ECS Transactions; Vol. 16, No. 31).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Osada, M, Takesada, M & Isobe, T 2009, Comparison between MgGa₂O₄:Mn²⁺ and ZnGa₂O₄:Mn²⁺ nanophosphors synthesized by glycothermal method. in ECS Transactions - Physics and Chemistry of Luminescent Materials, Including the 4th Symposium on Persistent Phosphors. 31 edn, ECS Transactions, no. 31, vol. 16, pp. 75-80, Physics and Chemistry of Luminescent Materials, Including the 4th Symposium on Persistent Phosphors - 214th ECS Meeting, Honolulu, HI, United States, 08/10/12.

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abstract = "MgGa2O4:Mn2+ (MGM) and ZnGa 2O4:Mn2+ (ZGM) nanophosphors were synthesized in 1,4-butanediol by glycothermal method at 300°C for 2h. The optimum photoluminescence (PL) intensity of MGM at 0.5 mol% Mn is higher than that of ZGM at 3.0 mol% Mn. We discuss this reason from several points of view. Transmission electron microscopy reveals that the particle size of MGM is smaller than that of ZGM. The X-ray diffraction peaks of MGM are broader than those of ZGM. These results cannot explain the higher PL intensity of MGM. The electron paramagnetic resonance spectroscopy and the PL decay analysis reveal that the homogeneity of Mn2+ ions in MGM is higher than that of ZGM, resulting in the more efficient PL process for MGM. The high homogeneity of Mn2+ ions is possibly attributed to the formation of MGM from the low-crystallized glycoxide precursor with a homogeneous mixture of different metallic ions. In contrast, ZGM could be formed by the crystallization of ZnGa2O4, followed by the incorporation of Mn2+ ions into ZnGa2O4.",

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