Luminescent Properties and Energy Transfer Mechanism of Gd3+ and Eu2+ Co-doped Phosphate Glasses

doi:10.1007/s40195-015-0223-y

Abstract

Abstract:

The phosphate glasses doped with Eu²⁺, Gd³⁺, respectively, and co-doped with Gd³⁺ and Eu²⁺ were prepared by high-temperature melting method. The transmission spectra, the excitation spectra, the emission spectra and the fluorescent decay time were investigated. The energy transfer process between Gd³⁺ and Eu²⁺ was studied. From the excitation spectra and the emission spectra of the phosphate glasses doped with Eu²⁺, we observed that the emission intensity of Eu²⁺ shows higher for 0.02 mol% Eu²⁺-doped phosphate glass. According to the excitation spectra and the emission spectra and the fluorescence decay curves, when the concentration of Eu²⁺ was 0.02 mol%, the optimal concentration of Gd³⁺ was 0.3 mol%. Based on Dexter theory, it is shown that the energy transfer between Gd³⁺ and Eu²⁺ was nonradiation energy transfer by analyzing the energy-level diagram. The fluorescence decay curves of Gd³⁺ were expressed by the Inokuti-Hirayama’s model and were used to analyze energy transfer mechanism between Gd³⁺ and Eu²⁺. And the energy transfer efficiency was also calculated.

Key words: Europium oxide, Phosphate glass, Luminescent properties, Energy transfer, Inokuti-Hirayama’s model

Qian Wang, Shao-Ye Ouyang, Wei-Huan Zhang, Bin Yang, Yue-Pin Zhang, Hai-Ping Xia. Luminescent Properties and Energy Transfer Mechanism of Gd³⁺ and Eu²⁺ Co-doped Phosphate Glasses[J]. Acta Metallurgica Sinica (English Letters), 2015, 28(4): 487-491.

Figures/Tables 8

Table 1 Compositions of the experimental glass samples (in mol%)

Sample	P₂O₅	BaO	Al₂O₃	Eu₂O₃	Gd₂O₃
E1	49.99	45.00	5.00	0.01	-
E2	49.98	45.00	5.00	0.02	-
E3	49.97	45.00	5.00	0.03	-
E4	49.96	45.00	5.00	0.04	-
E5	49.95	45.00	5.00	0.05	-
EG1	49.88	45.00	5.00	0.02	0.10
EG2	49.78	45.00	5.00	0.02	0.20
EG3	49.68	45.00	5.00	0.02	0.30
EG4	49.58	45.00	5.00	0.02	0.40
EG5	49.48	45.00	5.00	0.02	0.50
G	49.70	45.00	5.00	-	0.30

Fig. 1 Transmission spectra of the glass samples E2 and EG1-EG5 which doped with 0.02 mol% Eu2+ and (0-0.5) mol% Gd3+

Fig. 2 Excitation spectra of Eu2+ monitored at 445 nm (left) and the emission spectra of Eu2+ excited at 312 nm (right) of Eu2+ singly doped glass samples E1-E5

Fig. 3 Excitation spectrum of Eu2+ at 445-nm emission of sample E2, and the emission spectrum of Gd3+ at 275-nm excitation of sample G

Fig. 4 Emission spectra at 275-nm excitation of glass samples E2 and EG1-EG5 which doped with 0.02 mol% Eu2+ and 0-0.5 mol% Gd3+

Fig. 5 Energy-level diagram of Eu2+ and Gd3+ emissions and the processes of energy transfer from Gd3+ ions to Eu2+

Fig. 6 Decay curves of Gd3+ for 0.3 mol% Gd3+-doped sample (G) and 0.02 mol% Eu2+ and 0.1-0.5 mol% Gd3+ co-doped samples (EG1-EG5)

Table 2 The energy transfer efficiency (η ETE) of the sample with 0.02 mol% Eu2+ and 0.1-0.5 mol% Gd3+ doping

Sample	η _ETE (%)
EG1	59.8
EG2	71.6
EG3	76.6
EG4	50.3
EG5	21.8

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Luminescent Properties and Energy Transfer Mechanism of Gd³⁺ and Eu²⁺ Co-doped Phosphate Glasses

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