Investigations of structural, magnetic and induction heating properties of surface functionalized zinc ferrite nanoparticles for hyperthermia applications

In the present work, investigations of structural, magnetic and induction heating properties of surface functionalized zinc ferrite nanoparticles were carried out successfully. The zinc ferrite nanoparticles were prepared by co-precipitation route and further functionalized with oleic acid. The room...

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Hauptverfasser:	Somvanshi, Sandeep B., Kumar, R. Vipin, Kounsalye, Jitendra S., Saraf, Tukaram S., Jadhav, K. M.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Crystallites Diffraction patterns Heat treating Hyperthermia Induction heating Magnetic induction Magnetic properties Nanoparticles Oleic acid Spinel X-ray diffraction Zinc coatings Zinc ferrites
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creator	Somvanshi, Sandeep B. Kumar, R. Vipin Kounsalye, Jitendra S. Saraf, Tukaram S. Jadhav, K. M.
description	In the present work, investigations of structural, magnetic and induction heating properties of surface functionalized zinc ferrite nanoparticles were carried out successfully. The zinc ferrite nanoparticles were prepared by co-precipitation route and further functionalized with oleic acid. The room temperature X-ray diffraction pattern confirmed the typical cubic spinel structure of the prepared nanoparticles. The average crystallite size calculated from Scherrer’s formula was found to be 12.30 nm confirming the nanocrystalline nature of zinc ferrite nanoparticles. The characteristic peaks observed in FT-IR spectrum confirmed the formation of cubic spinel structure and oleic acid coating over zinc ferrite nanoparticles. The room temperature magnetization behaviour revealed the superparamagnetic nature of the prepared nanoparticles. The induction heating behaviour shows a desirable amount (6 mg/mL) of zinc ferrite nanoparticles can able to achieve 42°C temperature for 600 s at 4.0 kA/m. This indicates that the resulting zinc ferrite nanoparticles are promising materials in magnetic hyperthermia treatments.
doi_str_mv	10.1063/1.5113361
format	Conference Proceeding
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Vipin ; Kounsalye, Jitendra S. ; Saraf, Tukaram S. ; Jadhav, K. M.</creator><contributor>Yusuf, S. M. ; Sharma, Veerendra K. ; Biswas, Arup</contributor><creatorcontrib>Somvanshi, Sandeep B. ; Kumar, R. Vipin ; Kounsalye, Jitendra S. ; Saraf, Tukaram S. ; Jadhav, K. M. ; Yusuf, S. M. ; Sharma, Veerendra K. ; Biswas, Arup</creatorcontrib><description>In the present work, investigations of structural, magnetic and induction heating properties of surface functionalized zinc ferrite nanoparticles were carried out successfully. The zinc ferrite nanoparticles were prepared by co-precipitation route and further functionalized with oleic acid. The room temperature X-ray diffraction pattern confirmed the typical cubic spinel structure of the prepared nanoparticles. The average crystallite size calculated from Scherrer’s formula was found to be 12.30 nm confirming the nanocrystalline nature of zinc ferrite nanoparticles. The characteristic peaks observed in FT-IR spectrum confirmed the formation of cubic spinel structure and oleic acid coating over zinc ferrite nanoparticles. The room temperature magnetization behaviour revealed the superparamagnetic nature of the prepared nanoparticles. The induction heating behaviour shows a desirable amount (6 mg/mL) of zinc ferrite nanoparticles can able to achieve 42°C temperature for 600 s at 4.0 kA/m. 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M.</creatorcontrib><title>Investigations of structural, magnetic and induction heating properties of surface functionalized zinc ferrite nanoparticles for hyperthermia applications</title><title>AIP conference proceedings</title><description>In the present work, investigations of structural, magnetic and induction heating properties of surface functionalized zinc ferrite nanoparticles were carried out successfully. The zinc ferrite nanoparticles were prepared by co-precipitation route and further functionalized with oleic acid. The room temperature X-ray diffraction pattern confirmed the typical cubic spinel structure of the prepared nanoparticles. The average crystallite size calculated from Scherrer’s formula was found to be 12.30 nm confirming the nanocrystalline nature of zinc ferrite nanoparticles. The characteristic peaks observed in FT-IR spectrum confirmed the formation of cubic spinel structure and oleic acid coating over zinc ferrite nanoparticles. The room temperature magnetization behaviour revealed the superparamagnetic nature of the prepared nanoparticles. The induction heating behaviour shows a desirable amount (6 mg/mL) of zinc ferrite nanoparticles can able to achieve 42°C temperature for 600 s at 4.0 kA/m. 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M.</au><au>Sharma, Veerendra K.</au><au>Biswas, Arup</au><format>book</format><genre>proceeding</genre><ristype>CONF</ristype><atitle>Investigations of structural, magnetic and induction heating properties of surface functionalized zinc ferrite nanoparticles for hyperthermia applications</atitle><btitle>AIP conference proceedings</btitle><date>2019-07-11</date><risdate>2019</risdate><volume>2115</volume><issue>1</issue><issn>0094-243X</issn><eissn>1551-7616</eissn><coden>APCPCS</coden><abstract>In the present work, investigations of structural, magnetic and induction heating properties of surface functionalized zinc ferrite nanoparticles were carried out successfully. The zinc ferrite nanoparticles were prepared by co-precipitation route and further functionalized with oleic acid. The room temperature X-ray diffraction pattern confirmed the typical cubic spinel structure of the prepared nanoparticles. The average crystallite size calculated from Scherrer’s formula was found to be 12.30 nm confirming the nanocrystalline nature of zinc ferrite nanoparticles. The characteristic peaks observed in FT-IR spectrum confirmed the formation of cubic spinel structure and oleic acid coating over zinc ferrite nanoparticles. The room temperature magnetization behaviour revealed the superparamagnetic nature of the prepared nanoparticles. The induction heating behaviour shows a desirable amount (6 mg/mL) of zinc ferrite nanoparticles can able to achieve 42°C temperature for 600 s at 4.0 kA/m. This indicates that the resulting zinc ferrite nanoparticles are promising materials in magnetic hyperthermia treatments.</abstract><cop>Melville</cop><pub>American Institute of Physics</pub><doi>10.1063/1.5113361</doi><tpages>4</tpages></addata></record>
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subjects	Crystallites Diffraction patterns Heat treating Hyperthermia Induction heating Magnetic induction Magnetic properties Nanoparticles Oleic acid Spinel X-ray diffraction Zinc coatings Zinc ferrites
title	Investigations of structural, magnetic and induction heating properties of surface functionalized zinc ferrite nanoparticles for hyperthermia applications
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