An efficient foam Ni/MnO2/Pd composite cathode for the electrocatalytic degeneration of phenol

In this study, a Nickel foam electrode modified with MnO2 and Pd (i.e., a foam Ni/MnO2/Pd electrode) was fabricated in two electrodeposition steps. First, MnO2 was deposited on a three-dimensional cross-linked Ni foam electrode with high porosity and surface area through cyclic voltammetry. Then, th...

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Bibliographic Details
Published in:Materials chemistry and physics 2021-04, Vol.263, p.124401, Article 124401
Main Authors: Huang, Chun, Chen, Chia-Yi, Whang, Thou-Jen
Format: Article
Language:English
Subjects:
Advanced oxidation process
Cathodes
Degeneration
Degradation
Electrodes
Manganese dioxide
Metal foams
Nickel
Nickel foam
Palladium
Phenol
Phenols
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Summary:In this study, a Nickel foam electrode modified with MnO2 and Pd (i.e., a foam Ni/MnO2/Pd electrode) was fabricated in two electrodeposition steps. First, MnO2 was deposited on a three-dimensional cross-linked Ni foam electrode with high porosity and surface area through cyclic voltammetry. Then, the constant current method was used to deposit Pd electrically on the Ni foam electrode. The foam Ni/MnO2/Pd cathode exhibited a phenol degradation rate of 91.6% at a current density of 2 mA/cm2 for 2 h. This phenol degradation rate was higher than those of foam Ni/MnO2 and foam Ni/Pd. Furthermore, the Pd on the foam Ni/MnO2/Pd cathode was immobilized by depositing another thin layer of MnO2 to form foam Ni/MnO2/Pd/MnO2, which reduced Pd loss in the cleaning process and improved reusability without decreasing the phenol degradation efficiency. [Display omitted] •The MnO2 and Pd are stepwise electrodeposited on the Ni foam electrode.•The degradation rate of phenol reaches 91.6% at a current density of 2 mA/cm2 for 2 h using foam Ni/MnO2/Pd cathode.•Pd on cathode is immobilized by another layer of MnO2, reducing the Pd loss and improving the reusability of the cathode.
ISSN:0254-0584
1879-3312
DOI:10.1016/j.matchemphys.2021.124401