Efficient and ultra-thermally stable Eu 3+ and Sm 3+ -activated narrow-band red/deep red-emitting phosphors and their versatile applications.
Priyadarshini PradhanSavita PriyaMarikumar RajendranKasturi SinghSivakumar VaidyanathanPublished in: Dalton transactions (Cambridge, England : 2003) (2022)
A succession of Eu 3+ -activated Na 2 Y 4 (WO 4 ) 7 (NYW) red phosphors were synthesised and their optical properties were studied in detail for white LED, latent fingerprint and plant growth applications. The phosphors crystallised in a tetragonal system with space group I 4 1 / a . The NYW:Eu 3+ red phosphors demonstrated a line-like emission at 616 nm owing to electric dipole transition, and a systematic concentration-dependent PL study revealed that concentration quenching occurs at x = 1.8 with a color purity of 96.06%. The thermal stability and internal quantum efficiency of the phosphor were found to be ∼75.54% (at 423 K) and 88%, respectively. Furthermore, solid solution phosphors were synthesized to increase QE, which was found to be 91.27%. Specifically, the hybrid white LED exhibits warm white light with high CRI (80) and low CCT (5730 K) values, and these values are further improved (CRI-81, CCT-4274 K) when the WLED is fabricated using the most efficient solid solution phosphor Na 2 Y 2.2 Eu 1.8 (WO 4 ) 3 (MoO 4 ) 4 . The currently synthesized phosphors can be potential candidates for security applications. The selected phosphor compositions can be used for the detection of latent fingerprints. Besides, a succession of Eu 3+ and Sm 3+ co-doped phosphors were synthesized and their photophysical properties were studied systematically. The deep red LED was fabricated using the same and this could be a possible light source for plant growth usage.