Real-Time-Monitoring of the Synthesis of β-NaYF4:17% Yb,3% Er Nanocrystals Using NIR-to-Visible Upconversion Luminescence

In situ real-time monitoring of upconversion emission is applied to study the reaction mechanism for the synthesis of beta-NaYF4:17% Yb,3% Er nanoparticles in oleic acid and octadecene via the heat-up method. Transmission electron microscopy is used to correlate the spectroscopic signature of the reaction mixture with its composition. The power of real-time spectroscopic monitoring to precisely time the duration of the various stages of the reaction, and to accurately identify the transitions between those stages, including the completion of the reaction, is demonstrated. During the heat-up stage, the initial precipitate present is transformed into small alpha-phase nanoparticles. In the second and longest stage of the reaction, a period of relative stasis is maintained, during which there is at most a slight change in the size distribution of the alpha-phase nanoparticles formed during heat-up. In the third stage, a relatively rapid conversion of small alpha-phase nanoparticles to the larger beta-phase product nanoparticles is observed. The size distribution of the beta product remains relatively constant during the phase-transition stage, indicating that, once the beta particles begin to form, they grow very rapidly to the final product size. A significant variation in the time required to complete the reaction is observed, which is due almost entirely to the variation in the duration of the second reaction stage. The time required to complete the reaction does not appear to affect the size or uniformity of the product beta-NaYF4:17% Yb,3% Er nanoparticles.