Reversible Photoinduced Interconversion of Color Centers in α-Al2O3Prepared under Vacuum

Introduction of oxygen vacancies in α-Al2O3has been quite challenging because of its high thermal stability and high melting temperature. Here, we present a method to introduce oxygen vacancies in α-Al2O3. The method is based on vacuum heating of a polycrystalline α-Al2O3powder, producing a sphere-shaped solid consisting of α-Al2O3single crystals. The thus prepared α-Al2O3contains not only oxygen monovacancies, namely, the F+and Fcenters, but also aggregated oxygen vacancies, including the F2and F2+centers. We have found that a completely reversible interconversion between the F- and F2-type centers occurs by irradiating different wavelengths of light. For example, ∼90% of the F2and F2+centers can be converted to each other by alternate irradiation of ∼300 and ∼220 nm light even at room temperature. The observed interconversion can be interpreted in terms of the photoionization of the neutrally charged centers such as F2and Fcenters by irradiation of ∼300 and ∼220 nm light, respectively, and the subsequent electron capture by the positively charged F+and F2+centers. In the present α-Al2O3crystal, the positive charge of the F+and F2+centers is likely to be compensated by negatively charged aluminum vacancies, which can be introduced especially by the present vacuum heating process.