Abstract
Low-agglomerated Lu2O3:Eu3+ 5 at.% nanopowders, as well as transparent ceramics were fabricated by co-precipitation with ammonium hydrogen carbonate and vacuum sintering method, respectively. It was determined that transition of a part of europium ions into the divalent state enhanced sinterability due to formation of anionic vacancies and decrease of the RE-O bonds covalency. The luminescent properties of the Lu2O3:Eu3+ 5 at.% nanopowders and ceramics were studied under excitation by synchrotron radiation. The difference in the excitation spectra of Lu2O3:Eu3+ nanopowders and ceramics are caused by participation of the F+ centers in the excitation processes of Eu3+ luminescence in Lu2O3 host. Finally, the locations of the energy levels related to the Eu3+ dopant in Lu2O3 matrix were determined.
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