Tunable and high-color-rendering white light emissions in full visible spectral range in Ag-aggregates/Sm3+ co-doped germanate glass fluorophors

• Published in: Ceramics international Vol. 48; no. 16; pp. 22994 - 23001
• Main Authors: Zhang, Yuhang, Chen, Baojiu, Zhang, Xizhen, Zhang, Jinsu, Xu, Sai, Yu, Hongquan, Li, Xiangping, Cao, Yongze, Wang, Yichao, Wang, Xin, Gao, Duan, Sha, Xuzhu, Wang, Li
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.08.2022
• Subjects: Ag aggregates; Chroma-tunable white light; Full-color emitting; High color rendering; Sm3; Sm3; Chroma-tunable white light; Full-color emitting; High color rendering; Ag aggregates
• ISSN: 0272-8842; 1873-3956
• DOI: 10.1016/j.ceramint.2022.04.272

To achieve a tunable and high-color-rendering white light emission in full visible spectral range, the Ag-aggregates/Sm3+ co-doped germanate glass fluorophors were prepared by a melt-quenching method. Under the excitation of different wavelengths, the intense broadband emissions covering full visible spectral range from blue to red were gained in the germanate glasses only containing Ag-aggregates. From the optical spectral analyses, it was found that with increasing the excitation wavelengths, the emission peak position exhibits red-shift. However, the red component in the emission spectra is still of relative lack for realizing high quality white light, therefore Sm3+ was introduced as co-dopant to supply the red spectral component. In this way, a series of chroma-tunable and full-color-emitting white lights with color coordinates from (0.26, 0.25) to (0.30, 0.32) were successfully realized based on adjusting the excitation wavelengths and Sm3+ concentration. Particularly, the color rendering index (CRI) up to 97.6 was achieved. Furthermore, the luminescence thermal stability of Ag-aggregates/Sm3+ co-doped germanate glass fluorophors was investigated based on the Arrhenius model, and the corresponding ΔE values for Ag aggregates and Sm3+ emissions were confirmed to be 0.25 and 0.19 eV, respectively. In addition, a temperature sensing model was established based on the luminescence intensity ratio of Ag-aggregates to Sm3+, and the thermochromatic property of Ag-aggregates/Sm3+ co-doped germanate glasses was also evaluated. It was found that the luminescence color coordinates of Ag-aggregates/Sm3+ co-doped glass fluorophors always lie in the white light region when the sample temperature increases from 301 to 693 K, thus indicating that Ag-aggregates/Sm3+ co-doped glass fluorophors have potential application in solid-state lighting sources as a single-component white lighting material.