Comparison of Electrospun Titania and Zinc Oxide Nanofibers for Perovskite Solar Cells and Photocatalytic Degradation of Methyl Orange Dye

ZnO and TiO2 are both well-known electron transport materials; however, an exact comparison of their performance, when fabricated under the same synthesis conditions, is missing in literature. Considering this, we introduced a viable electrospinning route for development highly polycrystalline nanofibers material (ETM) perovskite solar cells photocatalysts textiles. Thanks to effective tuning band structure morphology TiO2, significant improvement performance as compared was observed were used photoanodes photocatalysts. X-ray diffraction detected structural properties showed that peaks corresponding ZnO. Morphological analysis carried out with scanning microscope, which revealed long, uniform, polycrystalline, having diameter nano regime. more aligned electron-supportive conduction nanofibers, dense agglomerated at some points. Optoelectronic show absorption values range ultraviolet, visible gap 3.3 3.2 eV, respectively. The semiconductor nature compatible ETL Electrical studies have enhanced conductivity sheet carrier mobility nanofibers. Therefore, higher photovoltaic conversion efficiency antibacterial activity achieved (10.33%), (8.48%). In addition, also recorded better than Similarly, possess photoactivity antimicrobial dye degradation effects applied fabrics.