Modifying the size and uniformity of upconversion Yb/Er:NaGdF4 nanocrystals through alkaline-earth doping†
Abstract
NaGdF4 is regarded as an ideal upconversion (UC) host material for lanthanide (Ln3+) activators because of its unique crystal structure, high Ln3+ solubility, low phonon energy and high photochemical stability, and Ln3+-doped NaGdF4 UC nanocrystals (NCs) have been widely investigated as bio-imaging and magnetic resonance imaging agents recently. To realize their practical applications, controlling the size and uniformity of the monodisperse Ln3+-doped NaGdF4 UC NCs is highly desired. Unlike the routine routes by finely adjusting the multiple experimental parameters, herein we provide a facile and straightforward strategy to modify the size and uniformity of NaGdF4 NCs via alkaline-earth doping for the first time. With the increase of alkaline-earth doping content, the size of NaGdF4 NCs increases gradually, while the size-uniformity is still retained. We attribute this “focusing” of size distribution to the diffusion controlled growth of NaGdF4 NCs induced by alkaline-earth doping. Importantly, adopting the Ca2+-doped Yb/Er:NaGdF4 NCs as cores, the complete Ca/Yb/Er:NaGdF4@NaYF4 core–shell particles with excellent size-uniformity can be easily achieved. However, when taking the Yb/Er:NaGdF4 NCs without Ca2+ doping as cores, they could not be perfectly covered by NaYF4 shells, and the obtained products are non-uniform in size. As a result, the UC emission intensity of the complete core–shell NCs increases by about 30 times in comparison with that of the cores, owing to the effective surface passivation of the Ca2+-doped cores and therefore protection of Er3+ in the cores from the non-radiative decay caused by surface defects, whereas the UC intensity of the incomplete core–shell NCs is enhanced by only 3 times.