Experimental investigation of structural, surface, optical and electrical properties of gallium sesquioxide doped tausonite compounds

“…Infrared bands on STO films with the addition of Cu dopants were sharper, possibly due to Cu-O vibrations. Changes in the infrared bands and transmittance at Cu-O and Sr-O represent a disruption of the Sr-Ti-O network due to the substitution of Cu 2+ ions to Sr 2+ sites in SrTiO3 [16,17]. There are small infrared bands between 1500 and 1700 cm -1 , as well as between 3650 and 3845 cm -1 .…”

Effect of Cupric-Doped SrTiO₃ Films on Optical Properties Using Spectrophotometry Method

“…Infrared bands on STO films with the addition of Cu dopants were sharper, possibly due to Cu-O vibrations. Changes in the infrared bands and transmittance at Cu-O and Sr-O represent a disruption of the Sr-Ti-O network due to the substitution of Cu 2+ ions to Sr 2+ sites in SrTiO3 [16,17]. There are small infrared bands between 1500 and 1700 cm -1 , as well as between 3650 and 3845 cm -1 .…”

Effect of Cupric-Doped SrTiO₃ Films on Optical Properties Using Spectrophotometry Method

Various concentrations of yttrium oxide (Y2O3) doping induce changes in structural, magnetic, optical, and photoluminescence properties of solid-state synthesized strontium titanate (SrTiO3) compounds for optoelectronic device applications