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8612929 
Journal Article 
Synthesis, crystal structure and luminescence characteristics of a novel red phosphor Ca19Mg2(PO4)(14):Eu3+ for light emitting diodes and field emission displays 
Zhu, G; Ci, ZP; Shi, YR; Que, MD; Wang, Q; Wang, YH 
2013 
Journal of Materials Chemistry C
ISSN: 2050-7526
EISSN: 2050-7534 
ROYAL SOC CHEMISTRY 
CAMBRIDGE 
37 
5960-5969 
English 
WOS:000323763000019 
In order to explore a new family of phosphate phosphors, the synthesis and crystal structure of a novel phosphate family, Ca19M2(PO4)(14) (M Mg, Zn, Mn), were investigated. Eu3+ doped Ca19Mg2(PO4)(14) red phosphor was also successfully synthesized with the objective of application in ultraviolet-based light-emitting diodes (LEDs) and field emission displays (FEDs). The characteristic photoluminescence properties were studied in detail by photoluminescence excitation (PLE), emission (PL) spectra and decay times. The Ca19Mg2(PO4)(14):0.06Eu(3+) phosphor offers higher brightness and thermal stability than the commercial Y2O3:Eu3+. The unexpected temperature-dependent luminescence from higher D-5(1) states was observed and was explained via the configuration coordinate diagram. The cathodoluminescence (CL) spectra as a function of accelerating voltage and probe current were also measured. Excellent degradation properties with good color stability were obtained by continuous low-voltage electron-beam excitation of the phosphor. The results indicate that the phosphor Ca19Mg2(PO4)(14):0.06Eu(3+) can be a suitable red-emitting phosphor candidate for LEDs and FEDs. 
OPTICAL-PROPERTIES; HYDROTHERMAL SYNTHESIS; PHOTOLUMINESCENCE; BRIGHTNESS; ULTRAVIOLET; DEPENDENCE; PARTICLES