Abstract
In this paper, a novel modified in situ chemical coprecipitation technology was put forward and firstly achieved the synthesis of a series of novel microcrystalline phosphors: YNbO 4:RE 3+ (RE = Sm, Tb, Er). Among rare earth coordination polymers were adopted as precursors for the rare earth oxides sources, and polyethylene glycol (PEG) was introduced to form the hybrid polymeric systems with rare earth coordination polymers. Together with other functional components such as ammonia to adjust pH value, the multicomponent hybrid precursors were composed by in situ coprecipitation process. After the calcination, YNbO 4:RE 3+ phosphors were characterized with XRD and SEM with the particle sizes were in the range of 0.5–3 μm. The photoluminescence properties of YNbO 4:RE 3+ phosphors were compared to investigate as a function of activated RE 3+ ions’ concentration, which revealed they exhibit apparent characteristic luminescence 4G 5/2 to 6H 5/2,7/2,9/2 for Sm 3+, 4F 9/2 to 6H 15/2,13/2,11/2 for Dy 3+ and 2H 11/2 ( 4S 3/2) → 4I 15/2 for Er 3+ under ultraviolet excitation. The photoluminescent intensities of the three series phosphors were compared with the different doping concentration and no quenching effect was found in the range of concentrations in this research. Besides this, strong emission for charge-transfer-band of NbO 4 3− can be also checked.
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