Luminescence and photocatalytic studies of Sm3+ ion doped SnO2 nanoparticles

Abstract

Sm³⁺ ion doped tetragonal SnO₂ nanoparticles have been synthesized by the polyol method and its concentration and annealing effects on photoluminescence properties are studied. The XRD results show the changes of lattice parameters with the incorporation of the Sm³⁺ ion into the SnO₂ host lattices. Fourier transform infrared (FTIR) data indicate the formation of a Sn–O bond and capping of the nanoparticles by ethylene glycol. The broad emission peaks observed around 350 to 550 nm are attributed to the emission from defects or traps present in the host SnO₂. The typical emission peaks of the Sm³⁺ ion are observed and there is efficient energy transfer between the host, SnO₂ and the dopant, Sm³⁺ ion. Further, the prepared samples are experimented towards the photocatalytic behavior on selected triphenylmethane dyes, Ethyl Violet (EV) and Brilliant Green (BG). The degradation of dyes was found to be enhancing in the presence of Sm³⁺ ions as it suppress the e⁻_CB and h⁺_VB recombination.