In the present paper, conventional positron lifetime measurements on selected zirconia-based nanopowders are reported. The nanopowders were doped with various metal cations (Y3+, Eu3+, Gd3+, Lu3+ and Mg2+).
Lifetime experiments were conducted in air and supplemented with mass density measurements. In a range of lifetimes, from a few ns to approximate to 70 ns, up to two individual lifetime components could be identified.
Such observations confirmed positronium (Ps) formation with subsequent ortho-Ps pick-off annihilation as well as the occurrence of pores of different size. Pore sizes were estimated using a shape-free model of the correlation between pore size and ortho-Ps lifetime.
The origins of pores are discussed on the basis of the ortho-Ps data in combination with the results of mass density measurements.