Abstract
In the present study, the Sr(1-x)Al(2)O(4):Eu(x) (x = 0.00, 0.01, 0.03, 0.05, 0.07, and 0.09) phosphor were synthesized by urea fuel combustion method at 580 °C temperature with very high brightness and long after glow. The structural studies carried out using XRD technique shows that the sample is single phased in nature and it gets crystallized into monoclinic phase with standard JCPDS 34-0379 card. The oxide formation was examined using FTIR technique. UV-Visible spectroscopy has been used to study the optical band gap of material, it's value in the current case, Sr(1-x)Al(2)O(4):Eu(x) (x = 0.05) is 3.78 eV. Scanning electron microscopy (SEM) and transmission electron microscopy (TEM), confirm the formation of nano particle, with average particle size around 6-25 nm. The elemental composition was confirmed by using Energy Dispersive X-ray (EDX) technique. The photo-luminescence study revealed that it gives broad emission spectra using excitation wavelength λ(ex) = 365 nm. It is observed that the Sr(1-x)Al(2)O(4):Eu(x) (x = 0.05) phosphor give maximum emission intensity and it can be regulated as green (0.23, 0.49) emission with the colour temperature 3224 K, CRI 78, and colour purity 60.69%. The spectra are intense and lie in the visible range. The green lights can regulate the circadian rhythm through melatonin, and it is also suitable for green LED and other optoelectronic devices. The Sr(1-x)Al(2)O(4):Eu(x) (x = 0.00 and 0.05) phosphor behaves like eco-materials, because nano particles of Sr(1-x)Al(2)O(4):Eu(x) (x = 0.05) does not show antimicrobial activity.