Investigation of atmospheric corrosion by photon energy dependent luminescence and Raman spectroscopy in aged and freshly fractured g-,c-As2S3 with photosensitive realgar inclusions

Abstract We have studied the light emission properties of aged glassy (g-) and crystalline (c-) As 2 S 3 and freshly fractured glassy As 2 S 3 with photosensitive realgar inclusions in the 1.5–4.5 eV spectral range and applying different excitation photon energies. Additionally, Raman scattering measurements were performed on g-As 40 S 60 to investigate structural changes caused by corrosion of the glass in air. Major features in the luminescence spectra were observed at 1.65, 1.87, 2.04, 2.26, 2.80 and 3.25 eV photon energies. The 1.65 eV band in photoluminescence spectra of g-As 2 S 3 was identified to be related to the As side by comparison of the photoluminescence spectrum with literature data for As 4 S 4 realgar crystal. A newly observed band at 1.87 eV was assigned to the As side in pararealgar occurring due to the light induced transformation from realgar to pararealgar phase. An oxidation process was found to take place during the aging and photo-aging accompanied with formation of As oxides, indicated by the emission bands at 2.04 and 2.26 eV. A rapid photo-oxidation process was observed in freshly fractured surfaces at room temperature which was connected with the light stimulated realgar-pararealgar transformation.