Unexpected production of singlet oxygen by sub-micron cerium oxide particles and enhanced photocatalytic activity against methyl orange

Abstract

Photodegradation of methyl orange (MO) by hydrothermally grown cerium oxide (CeO₂) particles has been investigated. It is observed that formation of oxygen vacancies and the size of the particles increase with increasing growth temperature (230 °C, 250 °C, 270 °C). The sample prepared at 270 °C shows faster photocatalytic degradation of MO (∼90%). Studies on reactive oxygen species generation reveal the unexpected production of singlet oxygen radicals along with super oxide anions. Further, singlet oxygen production was found to increase with the growth temperature. A good correlation between the size of the CeO₂ particles, singlet oxygen production and degradation of MO has been found. The production of singlet oxygen may be due to the synergy of oxygen vacancies and size of CeO₂ particles which enhance the charge accumulation at the surface of CeO₂ particles thus increasing the band bending.