Synthesis, characterization and application of Bi Supported CsCrO4 nanocomposite material

The Synthesis of Bi Supported CsCrO4 nanocomposite materials have been effectively co-precipitation method and Route and methodology of sonication. The study reveals that 600°C of Bi Inspired CsCrO4 nanocomposite materials high for the degradation of (RBL) Rhodamine Blue and Methyl violet (MV) dye once stimulated to solar light that of CsCrO4. The charecterization of SEM and TEM are two HR-related acronyms studies revealed that Bi-CsCrO4 possesses a nano spherical shaped and nanorode structure. Energy dispersive X-ray analysis confirmed the Zn, Cr, Cs and O are all abundant. The photoluminescence analysis showed the possible Reproduction of valence electrons happens when photoelectrons are shifted among them prepared materials. DRS (UV/Vis) conformed decrease superlative photoactivity of band gab energy by doped material and UV and solar irradiation for superior photocatalytic activity of Trypan Blue (TB) and Methyl violet (MV) dye. As a photoelectrode doped material proved its high efficiency of current in short circuit sensitized solar cell and CV by electro catalytic applications, prepared material 5 cycles was tested from result indicate stable and reusable was done.