Nickel-zinc spinel nanoferrites: Magnetic characterization and prospects of the use in self-controlled magnetic hyperthermia

Tovstolytkin A. I.; Kulyk M. M.; Kalita V. M.; Ryabchenko S. M.; Zamorskyi V. O.; Fedorchuk O. P.; Solopan S. O.; Belous A. G.

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Nickel-zinc spinel nanoferrites: Magnetic characterization and prospects of the use in self-controlled magnetic hyperthermia

机译：镍锌尖晶石纳米铁氧体：磁性表征及在自控磁热疗中的应用前景

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Effect of zinc substitution on magnetic properties and AC heating characteristics of Ni1-xZnxFe2O4 (x = 0-1) nanoparticles has been studied. Magnetic parameters, such as saturation magnetization, Curie temperature, specific loss power, have been determined for the samples. It is shown that the samples with a higher zinc concentration (x 0.5) display reduced values of spontaneous magnetization and Curie temperature as compared to those with x 0.5. A good agreement between the values of Curie temperature and maximal heating temperature under AC magnetic field is found for the samples with x = 0.75. It is concluded that heavily Zn-substituted Ni1-xZnxFe2O4 nanoparticles are promising materials for self-controlled magnetic hyperthermia applications.

机译：研究了锌取代对Ni1-xZnxFe2O4（x = 0-1）纳米粒子的磁性和AC加热特性的影响。已经确定了样品的磁参数，例如饱和磁化强度，居里温度，比损耗功率。结果表明，与x <0.5相比，锌浓度较高（x> 0.5）的样品的自发磁化强度和居里温度值降低。对于x = 0.75的样品，居里温度值与交流磁场下的最高加热温度之间有很好的一致性。结论是，大量锌取代的Ni1-xZnxFe2O4纳米粒子是用于自控磁热疗应用的有前途的材料。

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《Journal of magnetism and magnetic materials》 |2019年第3期|422-427|共6页
作者
Tovstolytkin A. I.; Kulyk M. M.; Kalita V. M.; Ryabchenko S. M.; Zamorskyi V. O.; Fedorchuk O. P.; Solopan S. O.; Belous A. G.;
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作者单位

NAS Ukraine, Inst Phys, Dept Magnet Phenomena Phys, 46 Nauky Ave, UA-03028 Kiev, Ukraine;

Natl Tech Univ Ukraine, Igor Sikorsky Kyiv Polytech Inst, 37 Peremohy Ave, UA-03056 Kiev, Ukraine;

NAS Ukraine, Inst Magnetism, Dept Phys Films, 36-b Vernadsky Blvd, UA-03142 Kiev, Ukraine;

Taras Shevchenko Natl Univ Kyiv, Fac Radiophys Elect & Comp Syst, 4G Glushkova Ave, UA-03680 Kiev, Ukraine;

MES Ukraine, 36-b Vernadsky Blvd, UA-03142 Kiev, Ukraine;

NAS Ukraine, VI Vernadskii Inst Gen & Inorgan Chem, Dept Solid State Chem, 32-34 Palladina Ave, UA-03142 Kiev, Ukraine;

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正文语种 eng
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Magnetic nanoparticles; Spinel ferrites; Magnetic properties; Specific loss power; Self-controlled hyperthermia;

机译：磁性纳米粒子;尖晶石铁氧体;磁性;比损耗功率;自控热疗;

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2. Magnetic characterization of Nickel-Zinc spinel ferrites along with their microwave characterization in Ku band [J] . Neha Aggarwal, Sukhleen Bindra Narang Journal of magnetism and magnetic materials . 2020,第Nova期

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3. Synthesis and characterizations of magnetically inductive Mn-Zn spinel ferrite nanoparticles for hyperthermia applications [J] . Supriya R. Patade, Deepali D. Andhare, Mangesh V. Khedkar, Journal of materials science . 2021,第10期

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Nickel-zinc spinel nanoferrites: Magnetic characterization and prospects of the use in self-controlled magnetic hyperthermia

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