Electro‑crystallized NiO nanoparticles for river‑water treatment applications

There is a fundamental relationship between properties of nanoparticles and their preparation method. In this study, NiO nanoparticles were electro-crystallized in an electrochemical cell containing two nickel electrodes, and an electrolyte solution of tetramethylammonium chloride and NaOH. The opti...

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Bibliographic Details
Published in:Applied physics. A, Materials science & processing Materials science & processing, 2021, Vol.127 (1), Article 73
Main Authors: Garavand, Kolsum, Mosivand, Saba
Format: Article
Language:English
Subjects:
Applied physics
Atomic absorption analysis
Atomic beam spectroscopy
Cadmium
Characterization and Evaluation of Materials
Cobalt
Condensed Matter Physics
Crystal defects
Crystallization
Electrochemical cells
Electrolytes
Electron recombination
Electron transitions
Machines
Magnetization
Magnetization curves
Manufacturing
Materials science
Nanoparticles
Nanotechnology
Nickel oxides
Optical and Electronic Materials
Oxidation
Particle size
Photoluminescence
Physics
Physics and Astronomy
Processes
Surfaces and Interfaces
Thin Films
Water treatment
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Summary:There is a fundamental relationship between properties of nanoparticles and their preparation method. In this study, NiO nanoparticles were electro-crystallized in an electrochemical cell containing two nickel electrodes, and an electrolyte solution of tetramethylammonium chloride and NaOH. The optimized reaction parameters obtained for the effective electro-crystallization of NiO nanoparticles were applied potential of 10 V, electrolyte concentration of 0.075 M, bath temperature of 20 °C, and annealing temperature of 400 °C. XRD results approved the formation of cubic structure of NiO. SEM images showed the mean particle size of spherical particles ranging from 12 to 47 nm. Based on UV–visible results, the value of band gap for typical NiO nanoparticles was obtained ~ 3.56 eV. The photoluminescence spectrum of a typical NiO sample showed two peaks at 370 nm and 670 nm, related to 3d 8 electron transition, recombination between electrons and holes, or defects in NiO nanoparticles. The magnetization curves showed that all samples are magnetically soft and the specific magnetization is dependent on the particle size. The electro-oxidation of Ni was particularly effective for cobalt and cadmium removal from laboratory water at high voltages. This protocol was also successful for removing cobalt and cadmium from two rivers in Iran. Based on atomic absorption spectroscopy analysis, it is possible to remove ~ 100% of cobalt and cadmium from water using obtained nanoparticles. The method could be economically scaled up to industrial capacity.
ISSN:0947-8396
1432-0630
DOI:10.1007/s00339-020-04185-y