Magneto-structural and photocatalytic behavior of mixed Ni–Zn nano-spinel ferrites: visible light-enabled active photodegradation of rhodamine B

The present study compiles with the physicochemical, magnetic, and photocatalytic evaluation of the mixed spinel Ni–Zn nanoferrites prepared by the auto-combustion sol–gel route. All the samples were characterized by XRD for the recognition of phase-pure cubic spinel structure. Spectral studies that...

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Published inJournal of materials science. Materials in electronics Vol. 31; no. 14; pp. 11352 - 11365
Main Authors Jadhav, Swapnil A., Somvanshi, Sandeep B., Khedkar, Mangesh V., Patade, Supriya R., Jadhav, K. M.
Format Journal Article
LanguageEnglish
Published New York Springer US 01.07.2020
Springer Nature B.V
Subjects
Catalytic activity
Characterization and Evaluation of Materials
Chemistry and Materials Science
Diameters
Evaluation
Ferrites
Hysteresis loops
Materials Science
Morphology
Nanoparticles
Optical and Electronic Materials
Photocatalysis
Photodegradation
Rhodamine
Sol-gel processes
Spinel
Zeta potential
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Abstract The present study compiles with the physicochemical, magnetic, and photocatalytic evaluation of the mixed spinel Ni–Zn nanoferrites prepared by the auto-combustion sol–gel route. All the samples were characterized by XRD for the recognition of phase-pure cubic spinel structure. Spectral studies that were carried out by FT-IR clearly show two absorptions band revealing the characteristics of ferrite skeleton. The morphology of the prepared nanoparticles was visualized by SEM and TEM microscopy technique. BET analysis showed the enhancement in surface parameters. Hydrodynamic diameter and dispersion studies were evaluated by DLS and Zeta potential measurements. The DC resistivity measured by two-probe technique shows the semiconductor behavior for all the samples. M–H hysteresis loop of all the samples exhibited the superparamagnetic behavior. The energy bandgap values obtained by the UV–Vis spectroscopy technique show the increasing trend from 1.82 to 2.07 eV with increase in Ni 2+ content. The photocatalytic activity of Rhodamine B was evaluated under sunlight irradiation. With increasing Ni 2+ concentration, the degradation efficiency increased to 98%. Further, the present nanocatalyst shows active reusability and can be easily separable due to its magnetic nature. The obtained results show the enhanced photocatalytic of the Ni–Zn nanoferrites under the visible light in contrast with the available literature reports.
AbstractList The present study compiles with the physicochemical, magnetic, and photocatalytic evaluation of the mixed spinel Ni–Zn nanoferrites prepared by the auto-combustion sol–gel route. All the samples were characterized by XRD for the recognition of phase-pure cubic spinel structure. Spectral studies that were carried out by FT-IR clearly show two absorptions band revealing the characteristics of ferrite skeleton. The morphology of the prepared nanoparticles was visualized by SEM and TEM microscopy technique. BET analysis showed the enhancement in surface parameters. Hydrodynamic diameter and dispersion studies were evaluated by DLS and Zeta potential measurements. The DC resistivity measured by two-probe technique shows the semiconductor behavior for all the samples. M–H hysteresis loop of all the samples exhibited the superparamagnetic behavior. The energy bandgap values obtained by the UV–Vis spectroscopy technique show the increasing trend from 1.82 to 2.07 eV with increase in Ni2+ content. The photocatalytic activity of Rhodamine B was evaluated under sunlight irradiation. With increasing Ni2+ concentration, the degradation efficiency increased to 98%. Further, the present nanocatalyst shows active reusability and can be easily separable due to its magnetic nature. The obtained results show the enhanced photocatalytic of the Ni–Zn nanoferrites under the visible light in contrast with the available literature reports.
The present study compiles with the physicochemical, magnetic, and photocatalytic evaluation of the mixed spinel Ni–Zn nanoferrites prepared by the auto-combustion sol–gel route. All the samples were characterized by XRD for the recognition of phase-pure cubic spinel structure. Spectral studies that were carried out by FT-IR clearly show two absorptions band revealing the characteristics of ferrite skeleton. The morphology of the prepared nanoparticles was visualized by SEM and TEM microscopy technique. BET analysis showed the enhancement in surface parameters. Hydrodynamic diameter and dispersion studies were evaluated by DLS and Zeta potential measurements. The DC resistivity measured by two-probe technique shows the semiconductor behavior for all the samples. M–H hysteresis loop of all the samples exhibited the superparamagnetic behavior. The energy bandgap values obtained by the UV–Vis spectroscopy technique show the increasing trend from 1.82 to 2.07 eV with increase in Ni 2+ content. The photocatalytic activity of Rhodamine B was evaluated under sunlight irradiation. With increasing Ni 2+ concentration, the degradation efficiency increased to 98%. Further, the present nanocatalyst shows active reusability and can be easily separable due to its magnetic nature. The obtained results show the enhanced photocatalytic of the Ni–Zn nanoferrites under the visible light in contrast with the available literature reports.
Author Khedkar, Mangesh V.
Jadhav, K. M.
Patade, Supriya R.
Jadhav, Swapnil A.
Somvanshi, Sandeep B.
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  fullname: Somvanshi, Sandeep B.
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  givenname: Mangesh V.
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  fullname: Khedkar, Mangesh V.
  organization: Department of Physics, Dr. Babasaheb Ambedkar Marathwada University
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  givenname: Supriya R.
  surname: Patade
  fullname: Patade, Supriya R.
  organization: Department of Physics, Dr. Babasaheb Ambedkar Marathwada University
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  givenname: K. M.
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  surname: Jadhav
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  organization: Department of Physics, Dr. Babasaheb Ambedkar Marathwada University
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crossref_citationtrail_10_1007_s10854_020_03684_1
springer_journals_10_1007_s10854_020_03684_1
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PublicationCentury 2000
PublicationDate 2020-07-01
PublicationDateYYYYMMDD 2020-07-01
PublicationDate_xml – month: 07
  year: 2020
  text: 2020-07-01
  day: 01
PublicationDecade 2020
PublicationPlace New York
PublicationPlace_xml – name: New York
PublicationTitle Journal of materials science. Materials in electronics
PublicationTitleAbbrev J Mater Sci: Mater Electron
PublicationYear 2020
Publisher Springer US
Springer Nature B.V
Publisher_xml – name: Springer US
– name: Springer Nature B.V
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Snippet The present study compiles with the physicochemical, magnetic, and photocatalytic evaluation of the mixed spinel Ni–Zn nanoferrites prepared by the...
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SubjectTerms Catalytic activity
Characterization and Evaluation of Materials
Chemistry and Materials Science
Diameters
Evaluation
Ferrites
Hysteresis loops
Materials Science
Morphology
Nanoparticles
Optical and Electronic Materials
Photocatalysis
Photodegradation
Rhodamine
Sol-gel processes
Spinel
Zeta potential
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Title Magneto-structural and photocatalytic behavior of mixed Ni–Zn nano-spinel ferrites: visible light-enabled active photodegradation of rhodamine B
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