Electro- and photoluminescence of the Tm 3+ ion in Tm 3+- and Li +-doped ZnO ceramics. Influence of the sintering temperature

Abstract

The electro- and photoluminescence properties of ZnO:Tm,Li pellets sintered between 900 and 1300°C have been studied at room temperature. The photoluminescence spectra show the emissions arising from both the Tm 3+ ions and ZnO itself whereas the electroluminescence spectra show only the emission arising from the Tm 3+ ions. The dependence of the current, capacitance and luminescence intensity upon voltage was measured. As for the ZnO:Bi composites, the electro-optical properties of the ZnO:Tm,Li composites depend mainly upon the grain boundaries, but unlike for the ZnO:Bi composites, they cannot be interpreted in terms of a succession of grain boundaries barriers. It is concluded that the grain boundaries act as preferential conduction pathways. The Tm 3+ ions are mainly located between the grains in intergranular layers where their luminescence acts as a probe, which evidences both the current flow and the presence of hot electrons.