Abstract

Eu2O3 nanocrystals are synthesized by a colloidal precipitation route in the size range 2–40 nm. The nanocrystals are passivated with a surface layer of trioctyl phosphine oxide (TOPO) in order to eliminate surface recombination effects. When pumped at 254 nm (4f → 5d transition) the nanocrystals exhibit red luminescence characteristic of 5D0 → 7Fn Eu3+ transitions within the cubic form of Eu2O3. The efficiency of the luminescence is increased by a factor of five as the particle size drops below 10 nm; it is suggested that confinement of the long lifetime Eu3+ excitation within the nanocrystal is responsible for this effect.

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