A simple and fast strategy for rare earth doped phosphors prepared by 980 nm laser thermal effect

The phosphors synthesize by the sol-gel method show low cost and good homogeneity, but it also requires furnace annealing at high-temperatures. This report uses a 980 nm laser annealing strategy to replace the furnace annealing in the sol-gel combustion synthesis. The fast laser annealing can improve the preparation efficiency of rare earth doped phosphor. Er3+/Li+ co-doped Y2O3 nanocrystals are synthesized by laser annealing strategy. The structures and spectral properties of the phosphors prepared by laser annealing are studied. The phosphors prepared by laser annealing have the same crystal structure and spectral properties as those organized by furnace annealing. In addition, phosphors can be heated into crystals using a high-power 980 nm laser. Under 980 nm excitation, the crystal prepared by laser annealing shows a much stronger fluorescence intensity than phosphors.

Automated summary

This report proposes a laser annealing strategy using a 980 nm laser to replace the high-temperature furnace annealing in sol-gel combustion synthesis. The laser annealing improves the preparation efficiency of rare earth doped phosphor and synthesizes phosphors with the same crystal structure and spectral properties as those obtained by furnace annealing. Moreover, the phosphors can be heated into crystals using a high-power 980 nm laser.