MoO3, TiO2, and MoTiO5 based oxide semiconductor for photovoltaic applications

Topographic essential synthesis of nanomaterials by adjusting easy preparatory factors is an effective way to improve a variety nanostructured materials. The SILAR technique used evaluate the manufacturing samples MoO3, TiO2, and MoTiO5 nanostructures. These nanostructures are as electrode materials in photovoltaic systems. link between photoelectrochemical characteristics studied depth. discovered be highly dependent. At 5mV/s scan rate, photocurrent electrodes surged fast when sunlight was turned on, reaching values 1.03 mA cm-2, 1.68 14.20 respectively. As soon solar illumination off, value dropped zero. Photocurrent transitions showed quick, homogeneous counterpart; this suggested that charge transfer these ingredients speedy possibly related crystal buildings MoTiO5. nano-belt nano-disc thin films have typical uses sector because they best photoresponse stability.