Synthesis and Molecular Interaction Study of Polymer‐NiFe2O4 Nanofluids at Different Temperatures by Using Ultrasonic Waves of 2 and 5 MHz for Medical Applications
ABSTRACT In this study, the sol–gel synthesis technique was used to create the pure nickel ferrite (NiFe2O4) nanoparticles. Citric acid is utilized as a stabilizing agent to aid in the creation of nanoparticles and control the size and morphology of the nanoparticles. Nickel sulfate hexahydrate (Ni(...
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| Published in | Macromolecular symposia. Vol. 414; no. 4 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Weinheim
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01.08.2025
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| Online Access | Get full text |
| ISSN | 1022-1360 1521-3900 |
| DOI | 10.1002/masy.70086 |
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| Abstract | ABSTRACT
In this study, the sol–gel synthesis technique was used to create the pure nickel ferrite (NiFe2O4) nanoparticles. Citric acid is utilized as a stabilizing agent to aid in the creation of nanoparticles and control the size and morphology of the nanoparticles. Nickel sulfate hexahydrate (Ni(SO4)⋅6H2O) and iron nitrate nonahydrate (Fe2 (NO3)3⋅9H2O) are used as precursors. To improve the size and band gap of the resulting nanoparticle sample, ultraviolet (UV) characterization is performed. To create the homogenous solution known as PEG‐NiFe2O4 nanofluids of 2% concentration and 0.6 g of nanoparticle powder were disseminated into 30 mL of polyethylene glycol (PEG) polymer and agitated for at least 4 h at 70°C. To evaluate the ultrasonic velocity, density, and viscosity at various temperatures (303–333 K), the acquired sample was poured into the ultrasonic interferometer cylinder of ultrasonic wave frequencies 2 and 5 MHz in addition, utilizing practical parameters like ultrasonic velocity, density, and viscosity, the associated ultrasonic parameters like adiabatic compressibility, acoustic impedance, and ultrasonic attenuation were calculated. The obtained results have been discussed in detail. |
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| AbstractList | ABSTRACT
In this study, the sol–gel synthesis technique was used to create the pure nickel ferrite (NiFe2O4) nanoparticles. Citric acid is utilized as a stabilizing agent to aid in the creation of nanoparticles and control the size and morphology of the nanoparticles. Nickel sulfate hexahydrate (Ni(SO4)⋅6H2O) and iron nitrate nonahydrate (Fe2 (NO3)3⋅9H2O) are used as precursors. To improve the size and band gap of the resulting nanoparticle sample, ultraviolet (UV) characterization is performed. To create the homogenous solution known as PEG‐NiFe2O4 nanofluids of 2% concentration and 0.6 g of nanoparticle powder were disseminated into 30 mL of polyethylene glycol (PEG) polymer and agitated for at least 4 h at 70°C. To evaluate the ultrasonic velocity, density, and viscosity at various temperatures (303–333 K), the acquired sample was poured into the ultrasonic interferometer cylinder of ultrasonic wave frequencies 2 and 5 MHz in addition, utilizing practical parameters like ultrasonic velocity, density, and viscosity, the associated ultrasonic parameters like adiabatic compressibility, acoustic impedance, and ultrasonic attenuation were calculated. The obtained results have been discussed in detail. In this study, the sol–gel synthesis technique was used to create the pure nickel ferrite (NiFe2O4) nanoparticles. Citric acid is utilized as a stabilizing agent to aid in the creation of nanoparticles and control the size and morphology of the nanoparticles. Nickel sulfate hexahydrate (Ni(SO4)⋅6H2O) and iron nitrate nonahydrate (Fe2 (NO3)3⋅9H2O) are used as precursors. To improve the size and band gap of the resulting nanoparticle sample, ultraviolet (UV) characterization is performed. To create the homogenous solution known as PEG‐NiFe2O4 nanofluids of 2% concentration and 0.6 g of nanoparticle powder were disseminated into 30 mL of polyethylene glycol (PEG) polymer and agitated for at least 4 h at 70°C. To evaluate the ultrasonic velocity, density, and viscosity at various temperatures (303–333 K), the acquired sample was poured into the ultrasonic interferometer cylinder of ultrasonic wave frequencies 2 and 5 MHz in addition, utilizing practical parameters like ultrasonic velocity, density, and viscosity, the associated ultrasonic parameters like adiabatic compressibility, acoustic impedance, and ultrasonic attenuation were calculated. The obtained results have been discussed in detail. |
| Author | Pandey, Krishna Kumar Lailaba, Bashar Badamasi Upmanyu, Arun |
| Author_xml | – sequence: 1 givenname: Bashar Badamasi surname: Lailaba fullname: Lailaba, Bashar Badamasi organization: Sharda University – sequence: 2 givenname: Krishna Kumar orcidid: 0000-0002-2965-6615 surname: Pandey fullname: Pandey, Krishna Kumar email: krishnakumar.pandey2@sharda.ac.in organization: Sharda University – sequence: 3 givenname: Arun surname: Upmanyu fullname: Upmanyu, Arun organization: Chitkara University Institute of Engineering and Technology, Chitkara University |
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In this study, the sol–gel synthesis technique was used to create the pure nickel ferrite (NiFe2O4) nanoparticles. Citric acid is utilized as a... In this study, the sol–gel synthesis technique was used to create the pure nickel ferrite (NiFe2O4) nanoparticles. Citric acid is utilized as a stabilizing... |
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| SubjectTerms | Acoustic attenuation Acoustic impedance Adiabatic Chemical synthesis Citric acid Compressibility Density medical applications Molecular interactions Nanofluids Nanoparticles Nickel nickel ferrite nanoparticle Nickel ferrites Nickel sulfate Nitrates Parameters PEG‐NiFe2O4 nanofluids Polyethylene glycol Polymers Sol-gel processes Stabilizers (agents) Ultrasonic attenuation ultrasonic wave Ultrasonics Velocity Viscosity |
| Title | Synthesis and Molecular Interaction Study of Polymer‐NiFe2O4 Nanofluids at Different Temperatures by Using Ultrasonic Waves of 2 and 5 MHz for Medical Applications |
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