Abstract

Intense green up-conversion (UC) emissions from 5F4/5S2→5I8 transitions of Ho3+ in Yb3+/Ho3+ co-doped CaIn2O4 have been observed with excitation at 980nm. The optimal processing parameters were determined by investigating emission intensities as a function of annealing temperature, duration time and Ho3+/Yb3+ dopant concentrations. It has been confirmed that the green UC luminescence was generated via a two-photon process from the quadratic dependence of the emission intensity on the pump power. A UC mechanism was proposed and the lifetime of the green emission was measured to be ∼204μs. The infrared-to-visible UC efficiency of the optimized CaIn2O4: 0.005Ho3+, 0.1Yb3+ sample increases to ∼5.5% with the excitation power and saturates at 1.5W. The chromaticity coordinates (0.281, 0.708) of the samples are located in the green region and hardly changed due to the negligible red emission. The results indicate that CaIn2O4: Yb3+, Ho3+ could act as an effective UC green light emitter and CaIn2O4 is an ideal oxide host for UC luminescence.

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