首页|Structural, optical, and dielectric properties of Co2+: Zn2SiO4 glass-ceramics for blue phosphor used in optoelectronic devices
Structural, optical, and dielectric properties of Co2+: Zn2SiO4 glass-ceramics for blue phosphor used in optoelectronic devices
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NSTL
Elsevier
? 2022 Elsevier B.V.For the first time, the author reported the fabrication and characterizations of Co2+ doped Zn2SiO4 (Co2+: Zn2SiO4) using the recycled waste white rice husk ash (WRHA) based on empirical formula (Co3O4)1.0[(ZnO)55.0(WRHA)45.0]99.0 and produced by using melt-quenching technique. The precursor glass was heat treated at 700 ℃ until 950 ℃. The X-ray diffraction (XRD) result of Co2+: Zn2SiO4 showed that β- Zn2SiO4 started to form at 750 ℃ and single phase of α-Zn2SiO4 remain stable at 950 ℃. The Fourier transform infrared spectroscopy (FTIR) confirmed the formation of Co2+: Zn2SiO4 by showing eight significant vibrational bands. One triplet absorption band occurred at around 450–700 nm attributed to 4A2 → 4T1 (4P) optical transition of Co2+ ions that gives blue color towards the Co2+: Zn2SiO4 sample. Emission spectroscopy of Co2+: Zn2SiO4 exhibit five different peaks corresponded to blue emission (~416 nm, ~441 nm, ~461 nm and ~481 nm) and green emission (~527 nm) under excitation at 325 nm. Such luminescence properties making Co2+: Zn2SiO4 as a potential phosphor material especially in providing blue emission supported by the excellent dielectric properties.
Blue emissionLuminescenceOptical absorptionPhosphorZinc silicate
NSTL
Elsevier
