Interstitial O and O vacancies in La2CuO4+delta during high-temperature treatments

We have investigated the absorption of interstitial O and the formation of O vacancies in La2CuO4+delta in equilibrium with O-2 pressures between 10(- 4) and 10(3) Torr or in vacuum at high temperature. Below 600 degrees C, th e concentration of vacancies is negligible, and the equilibrium between La2 CuO4+delta and gaseous O-2 only involves interstitial O. The pressure-compo sition equilibrium curve has been determined at 550 degrees C by repeated v acuum extraction in a fixed volume. The analysis of the partial desorption stages indicates the formation of interstitial O2- ions (delta similar to p (1/6)) with corrections due to the formation of peroxide species, like pair s of O ions with ionization number -2 (delta similar to p(1/3)) or -3 inste ad of -4. An equilibrium fraction of O vacancies up to 8% can be created ab ove 720 degrees C in a pressure lower than 0.1 Torr, and reversibly filled by reoxygenation at high temperature, without decomposition of the sample. The vacancies are much less mobile than interstitial O and therefore they m ust be in the CuO2 plane; they can be frozen in the sample and coexist with interstitial O. (C) 1999 Published by Elsevier Science B.V. All rights res erved.