Energy Back Transfer Induced Color Controllable Upconversion Emissions in La2MoO6:Er3+/Yb3+ Nanocrystals for Versatile Applications

Color controllable Er³⁺/Yb³⁺‐codoped La₂MoO₆ upconverting nanocrystals are successfully synthesized via a facile sol‐gel method. Under the irradiation of 980 nm light, the entire samples exhibit dazzling upconversion (UC) emissions arising from the intra‐4f transitions of Er³⁺ ions and the UC emission intensity is strongly dependent on the Yb³⁺ ion concentration. Moreover, by controlling the Yb³⁺ ion concentration, the emission color is changed from green to yellow and finally to red as a result of the energy back transfer from Er³⁺ to Yb³⁺ ions, which is further verified by the theoretically discussion based on the steady‐state rate expressions. The optical thermometric properties of the prepared nanocrystals based on the (²H_11/2,⁴S_3/2) thermally coupled levels of Er³⁺ ions are systematically studied by analyzing the temperature‐dependent green UC emission spectra in the range of 303–663 K. The maximum sensor sensitivity of resultant nanocrystals is determined to be 0.0083 K⁻¹ at 510 K. Furthermore, the emitting color of the synthesized nanocrystals relies on the temperature. In addition, the heating effect induced by the excitation pump power is also investigated and the host lattice temperature is enhanced from 319 to 404 K with raising the pump power from 159 to 757 mW.