Characterization and optical properties of (Gd_1-x, Pr_x)₂O₂S nano-phosphors synthesized using a novel co-precipitation method

A novel co-precipitation method for synthesizing (Gd_1-x, Pr_x)₂O₂S nano-phosphors was developed, using the commercially available Gd₂O₃, Pr₆O₁₁, H₂SO₄ and NaOH as the starting materials. This method has the advantage of controllable phosphor particle size and shape, simplicity in processing, low cost, and not involving toxic carbon disulfide or hydrogen sulfide. It was found that the as-synthesized precursor is mainly composed of (Gd_1-x, Pr_x)₂(OH)₄SO₄·nH₂O. By calcining the (Gd_1-x, Pr_x)₂(OH)₄SO₄·nH₂O precursor at a temperature higher than 700 °C for 1 h in flowing hydrogen, pure quasi-spherical shaped (Gd_1-x, Pr_x)₂O₂S particles can be synthesized. The (Gd_1-x, Pr_x)₂O₂S particles have a narrow size distribution with a mean grain size of about 20-30 nm. UV-vis spectra indicates that the absorption edge of the samples has a blue shift with increasing calcination temperature, while PL spectra of (Gd_1-x, Pr_x)₂O₂S under 301 nm excitation show a green emission at 511 nm as the most prominent peak, which corresponds to the ³P₀ → ³H₄ transition of Pr³⁺ ions. The optimal x value is 0.01 for the highest luminescent emission intensity.