Enhanced photocatalytic and electrochemical performance of hydrothermally prepared NiO‐doped Co nanocomposites

Author:

Venkatachalapathy Murugesan1,Sambathkumar Kuppusamy2,Rajasaravanan Maran Elangovan3,Uthrakumar Ramamurthy3,Kaviyarasu Kasinathan4,Yewale Manesh Ashok5,Awad Mohammed67,Alam Mir Waqas8ORCID

Affiliation:

1. PG & Research Department of Physics Thiru. A. Govindasamy Government Arts College Tindivanam Tamil Nadu India

2. PG & Research Department of Physics Arignar Anna Government Arts College Villupuram Tamil Nadu India

3. Department of Physics Government Arts College (Autonomous) Salem Tamil Nadu India

4. UNESCO‐UNISA Africa Chair in Nanosciences/Nanotechnology Laboratories, College of Graduate Studies University of South Africa (UNISA) Pretoria South Africa

5. School of Mechanical Engineering Yeungnam University Gyeongsan Republic of Korea

6. School of Engineering Samarkand International University of Technology (SIUT) Samarkand Uzbekistan

7. Department of Chemical Engineering Toronto Metropolitan University Toronto Ontario Canada

8. Department of Physics, College of Science King Faisal University Al‐Ahsa Saudi Arabia

Abstract

AbstractIn this study, we synthesize nanostructured nickel oxide (NiO) and doped cobalt (Co) by combining nickel(II) chloride hexahydrate (NiCl2.6H2O) and sodium hydroxide (NaOH) as initial substances. We analyzed the characteristics of the product nanostructures, including their structure, optical properties, and magnetic properties, using various techniques such as x‐ray diffraction (XRD), scanning electron microscopy (SEM), ultraviolet absorption spectroscopy (UV–Vis), Fourier transform infrared (FTIR) spectroscopy, and vibrating sample magnetometers (VSM). The NiO nanoparticles doped with Co showed photocatalytic activity in degrading methylene blue (MB) dye in aqueous solutions. We calculated the degradation efficiencies by analyzing the UV–Vis absorption spectra at the dye's absorption wavelength of 664 nm. It was observed that the NiO‐doped Co nanoparticles facilitated enhanced recombination and migration of active elements, which led to more effective degradation of organic dyes during photocatalysis. We also assessed the electrochemical properties of the materials using cyclic voltammetry (CV) and impedance spectroscopy in a 1 mol% NaOH solution. The NiO‐modified electrode exhibited poor voltammogram performance due to insufficient contact between nanoparticles and the electrolyte solution. In contrast, the uncapped NiO's oxidation and reduction cyclic voltammograms displayed redox peaks at 0.36 and 0.30 V, respectively.

Publisher

Wiley

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