NaCa0.95PO4:0.05Eu(3+) phosphors with 2 wt.% NH4Cl flux sintered at various sintering temperature (800, 900, 1000, 1100 degrees C) for 3 h under air atmosphere were synthesized successfully via solid state reaction method. It is found that the addition of NH4Cl flux and different sintering temperatures can affect the morphology and fluorescent properties of NaCa0.95PO4:0.05Eu(3+) phosphor. The X-ray diffractions show a single phase and the microstructure observations show uniform morphologies for NaCa0.95PO4:0.05Eu(3+) phosphors sintered at the range from 900 degrees C to 1000 degrees C, indicating that addition of 2 wt.% NH4Cl flux is helpful for enhancing the crystallization, thus improving the luminescence intensity of the charge transfer transition. The intensity of the excitation peaks displayed a maximum value at 1000 degrees C. The chromaticity (x, y) is in the orange-red region (0.54, 0.39) and the lifetime value is about 2.1 ms, suitable for the remote phosphor packages. (C) 2013 Elsevier Ltd. All rights reserved.