Tailoring the structural, morphological, optical, cytotoxicity, and antibacterial properties of low temperature calcined nickel ferrite nanoparticles

Polycrystalline spinel nickel ferrite nanoparticles were prepared by employing sol–gel auto combustion method. The as-prepared nanoparticles were characterized using XRD and FTIR for structural characterization, the morphology of the samples was analyzed from the FESEM micrographs. The XRD analysis...

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Published in	Journal of sol-gel science and technology Vol. 100; no. 3; pp. 496 - 505
Main Authors	Praveena, M. G., Mohammed, E. M.
Format	Journal Article
Language	English
Published	New York Springer US 01.12.2021 Springer Nature B.V
Subjects	Ceramics Chemistry and Materials Science Composites Cytotoxicity Glass Inorganic Chemistry Klebsiella Low temperature Magnetic properties Materials Science Metal oxides Morphology Nanoparticles Nanotechnology Natural Materials Nickel Nickel ferrites Optical and Electronic Materials Optical properties Original Paper: Sol-gel and hybrid materials for biological and health (medical) applications Photoluminescence Photomicrographs Room temperature Sol-gel processes Spectrum analysis Spinel Structural analysis Toxicity Cytotoxicity Antibacterial study Sol–gel auto combustion Nickel ferrite Optical study
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Abstract	Polycrystalline spinel nickel ferrite nanoparticles were prepared by employing sol–gel auto combustion method. The as-prepared nanoparticles were characterized using XRD and FTIR for structural characterization, the morphology of the samples was analyzed from the FESEM micrographs. The XRD analysis validated the cubic spinel structure of the synthesized NiFe 2 O 4 nanoparticles. The octahedral and tetrahedral locations of metal oxide bands were proven by two prominent metal oxide bands in the FTIR spectrum at 466 and 589 cm −1 , respectively. The prepared nanoparticles are in spherical morphology, according to the FESEM analysis. The optical properties exhibited by the NiFe 2 O 4 nanoparticles was examined by studying UV–Vis spectroscopy and photoluminescence spectra. The magnetic properties were studied at room temperature by employing VSM analysis. Agar well diffusion tests procedures were used to assess the bactericidal effect of nickel ferrite particles. Using Dalton’s Lymphoma Ascites cells, the nickel ferrite nanoparticles were investigated for short-term in vitro cytotoxicity. The presence of NiFe 2 O 4 inhibits Bacillus subtilis and Klebsiella pneumonia growth.
AbstractList	Polycrystalline spinel nickel ferrite nanoparticles were prepared by employing sol–gel auto combustion method. The as-prepared nanoparticles were characterized using XRD and FTIR for structural characterization, the morphology of the samples was analyzed from the FESEM micrographs. The XRD analysis validated the cubic spinel structure of the synthesized NiFe 2 O 4 nanoparticles. The octahedral and tetrahedral locations of metal oxide bands were proven by two prominent metal oxide bands in the FTIR spectrum at 466 and 589 cm −1 , respectively. The prepared nanoparticles are in spherical morphology, according to the FESEM analysis. The optical properties exhibited by the NiFe 2 O 4 nanoparticles was examined by studying UV–Vis spectroscopy and photoluminescence spectra. The magnetic properties were studied at room temperature by employing VSM analysis. Agar well diffusion tests procedures were used to assess the bactericidal effect of nickel ferrite particles. Using Dalton’s Lymphoma Ascites cells, the nickel ferrite nanoparticles were investigated for short-term in vitro cytotoxicity. The presence of NiFe 2 O 4 inhibits Bacillus subtilis and Klebsiella pneumonia growth. Polycrystalline spinel nickel ferrite nanoparticles were prepared by employing sol–gel auto combustion method. The as-prepared nanoparticles were characterized using XRD and FTIR for structural characterization, the morphology of the samples was analyzed from the FESEM micrographs. The XRD analysis validated the cubic spinel structure of the synthesized NiFe2O4 nanoparticles. The octahedral and tetrahedral locations of metal oxide bands were proven by two prominent metal oxide bands in the FTIR spectrum at 466 and 589 cm−1, respectively. The prepared nanoparticles are in spherical morphology, according to the FESEM analysis. The optical properties exhibited by the NiFe2O4 nanoparticles was examined by studying UV–Vis spectroscopy and photoluminescence spectra. The magnetic properties were studied at room temperature by employing VSM analysis. Agar well diffusion tests procedures were used to assess the bactericidal effect of nickel ferrite particles. Using Dalton’s Lymphoma Ascites cells, the nickel ferrite nanoparticles were investigated for short-term in vitro cytotoxicity. The presence of NiFe2O4 inhibits Bacillus subtilis and Klebsiella pneumonia growth.
Author	Praveena, M. G. Mohammed, E. M.
Author_xml	– sequence: 1 givenname: M. G. surname: Praveena fullname: Praveena, M. G. email: pravigvr05@gmail.com organization: Department of Physics, Maharaja’s College, Ernakulam, Department of Physics, St. Teresa’s College, Ernakulam – sequence: 2 givenname: E. M. surname: Mohammed fullname: Mohammed, E. M. organization: Department of Physics, Maharaja’s College, Ernakulam
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Snippet	Polycrystalline spinel nickel ferrite nanoparticles were prepared by employing sol–gel auto combustion method. The as-prepared nanoparticles were characterized...
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SubjectTerms	Ceramics Chemistry and Materials Science Composites Cytotoxicity Glass Inorganic Chemistry Klebsiella Low temperature Magnetic properties Materials Science Metal oxides Morphology Nanoparticles Nanotechnology Natural Materials Nickel Nickel ferrites Optical and Electronic Materials Optical properties Original Paper: Sol-gel and hybrid materials for biological and health (medical) applications Photoluminescence Photomicrographs Room temperature Sol-gel processes Spectrum analysis Spinel Structural analysis Toxicity
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Title	Tailoring the structural, morphological, optical, cytotoxicity, and antibacterial properties of low temperature calcined nickel ferrite nanoparticles
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