4.7 Article

Influence of 2D template-assisted (SBA-15) metal oxide Co3O4 for pseudocapacitive and dye degradation application

期刊

ENVIRONMENTAL RESEARCH
卷 204, 期 -, 页码 -

出版社

ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.envres.2021.112383

关键词

Mesoporous material; SBA-15; Microwave-assisted method; Pseudocapacitive application; Photocatalytic degradation; S15; m-Co3O4

资金

  1. CSIR-HRDG [08/757/ (0001) /2020 EMR-I]
  2. SNR Sons char-itable trust, Coimbatore

向作者/读者索取更多资源

The study successfully synthesized S15/m-Co3O4 nanoarcs, confirming their excellent electrochemical performance and photocatalytic degradation capabilities. This material exhibited a specific capacity of 87.5 C/g in a 1 M KOH solution, with a retention capacity of 87% after 1000 cycles, and can also serve as a catalyst for the degradation of dye molecules through photocatalysis.
Cobalt oxide (Co3O4) is a low-cost material exhibiting excellent physicochemical and photocatalytic properties indicating its potential use for next-generation eco-friendly energy storage and photocatalytic degradation applications. In this study, Co3O4 nanoarcs were synthesized using SBA-15 as a template by microwave-assisted method to form an S15/m-Co3O4 product. Characterization was done by low and wide-angle X-Ray diffraction, and Fourier transformed infra-red spectroscopic studies confirming the presence of S15/m-Co3O4. Scanning Electron Microscope images proved the agglomerated nanotube and nanoarcs like the structure of SBA-15 and S15/m- Co3O4, respectively. Electrochemical studies included cyclic voltammetry, charge/discharge, retention capacity, and electron impedance spectroscopy studies in a 3-electrode system. S15/m-Co3O4 nanoarcs, as the electrode material, was revealed to have a specific capacity of 87.5 C/g in 1 M KOH solution. Upon running 1000 cycles, the material had excellent capacity retention of 87%. The S15/m-Co3O4 product also underwent photocatalytic degradation studies. The Rhodamine R6G dye degradation by S15/m-Co3O4 under UV irradiation exhibited a high degradation percentage of 97.7%, following the first-order kinetics. S15/m-Co3O4 has proven to be biocompatible and can be used to enhance supercapacitors which are an ideal alternative to conventional batteries for energy storage applications. Thus, the data produced proves S15/m-Co3O4 nanoarcs is an excellent electrode material for pseudocapacitive application and a catalyst for photocatalytic degradation of dye molecules.

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