1. Role of precursor concentrations on the formation of ternary Pb1−Sr Se QDs in silicate glasses
- Author
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Jing Wang, Jianjun Han, Shao Xin, Xianghang Kong, Chao Liu, Yong Su, Jian Ruan, Liu Yingrui, Xiaochun Li, and Wei Zhang
- Subjects
010302 applied physics ,Materials science ,Photoluminescence ,Band gap ,Mechanical Engineering ,Inorganic chemistry ,02 engineering and technology ,Crystal structure ,021001 nanoscience & nanotechnology ,Condensed Matter Physics ,01 natural sciences ,Ion ,chemistry.chemical_compound ,chemistry ,Mechanics of Materials ,Quantum dot ,0103 physical sciences ,General Materials Science ,Absorption (chemistry) ,0210 nano-technology ,Ternary operation ,Lead selenide - Abstract
Lead selenide quantum dots (QDs) were precipitated in silicate glasses with different contents of SrO. As the concentration of SrO increased from 0 to 10 mol%, the absorption peaks of the glasses with the heat treatment at 520 °C for 10 h blue-shifted from 1535 nm to 947 nm, and their photoluminescence (PL) peaks from 1578 nm to 1184 nm. The blue-shifts resulted from the incorporation of Sr2+ ions into PbSe crystal lattice, which leads to the increase of the bandgap of PbSe QDs. Meanwhile, the optical properties of Sr2+-doped PbSe QDs were investigated by changing the precursor concentrations of Pb and Se. It is found that the concentration of Sr2+-doped PbSe QDs in the glassy matrix is mainly determined by the contents of the Pb precursor. To form larger size QDs requires higher oversaturation of Se to Pb elements, which promoted the further growth of QDs.
- Published
- 2021