| 초록 |
Preparation and application of PbO2 makes favor among researchers due to many factors that includes less commercial availability and importantly its good resistance to corrosion, long lifetime, low cost, and high over potential for oxygen evolution in electrolysis.Herein, dielectric material BaTiO3 aimed to introduce substrate material for nano-PbO2 preparation and its electrocatalytic ability and stability.This investigation aims to study the experimental conditions for BaTiO3 electrodeposition along with PbO2 codeposition to get nano-PbO2 semiconducting electrode for electrocatalytic applications, here phenol as model compound. This investigation aims to study the experimental conditions for BaTiO3 electrodeposition along with PbO2 codeposition to get nano-PbO2 semiconducting electrode for electrocatalytic applications, here phenol as model compound. This investigation aims to study the experimental conditions for BaTiO3 electrodeposition along with PbO2 codeposition to get nano-PbO2 semiconducting electrode for electrocatalytic applications, here phenol as model compound. The morphology was characterized by XRD, SEM, EDAX, and theresults were comparative with cyclic voltammerty. |
