We report the photoluminescence(PL) of Eu^3+-doped glass with Bi^3+as a sensitizer. The specific glass system with the strong enhancement of the red emission of Eu3+is obtained by adding a small number of Bi3+io...We report the photoluminescence(PL) of Eu^3+-doped glass with Bi^3+as a sensitizer. The specific glass system with the strong enhancement of the red emission of Eu3+is obtained by adding a small number of Bi3+ions instead of increasing the Eu^3+ concentration. The emission band of Bi3+overlaps with the excitation band of Eu^3+ and the lifetime decay curves,resulting in a very efficient energy transfer from Bi^3+ to Eu^3+. The probability of energy transfer is strongly dependent on Bi^3+ concentration. In addition, the intensity of 4f–4f transition is much stronger than that of a charge-transfer(CT) band in the excitation spectrum, which indicates that the Na2O–Ca O–Ge O2-Si O2 glass is a suitable red-emitting phosphor with high stability as a candidate for light-emitting diodes(LEDs).展开更多
基金Project supported by the National Natural Science Foundation of China(Grant Nos.11204113 and 61308091)the Specialized Research Fund for the Doctoral Program of Higher Education of China(Grant No.20115314120001)
文摘We report the photoluminescence(PL) of Eu^3+-doped glass with Bi^3+as a sensitizer. The specific glass system with the strong enhancement of the red emission of Eu3+is obtained by adding a small number of Bi3+ions instead of increasing the Eu^3+ concentration. The emission band of Bi3+overlaps with the excitation band of Eu^3+ and the lifetime decay curves,resulting in a very efficient energy transfer from Bi^3+ to Eu^3+. The probability of energy transfer is strongly dependent on Bi^3+ concentration. In addition, the intensity of 4f–4f transition is much stronger than that of a charge-transfer(CT) band in the excitation spectrum, which indicates that the Na2O–Ca O–Ge O2-Si O2 glass is a suitable red-emitting phosphor with high stability as a candidate for light-emitting diodes(LEDs).
