Magnetic, Pseudocapacitive, and H₂O₂-Electrosensing Properties of Self-Assembled Superparamagnetic Co_0.3Zn_0.7Fe₂O₄with Enhanced Saturation Magnetization

Abstract: The present work explores the structural, microstructural, optical, magnetic, and hyperfine properties of Co 0.3 Zn 0.7 Fe 2 O 4 microspheres, which have been synthesized by a novel template-free solvothermal method. Powder X-ray diffraction, electron microscopic, and Fourier transform infrared spectroscopic techniques were employed to thoroughly investigate the structural and microstructural properties of Co … Show more

“…Binding energy (eV) decreased the number of trap sites in the system [45]. On the other hand, the agglomeration in RuSbO must have introduced lattice strain, caused contraction of lattice parameter, and given rise to defects and vacancies in the system.…”

High stability asymmetric supercapacitor cell developed with novel microwave-synthesized graphene-stabilized ruthenium antimonide nanomaterial

“…Binding energy (eV) decreased the number of trap sites in the system [45]. On the other hand, the agglomeration in RuSbO must have introduced lattice strain, caused contraction of lattice parameter, and given rise to defects and vacancies in the system.…”

High stability asymmetric supercapacitor cell developed with novel microwave-synthesized graphene-stabilized ruthenium antimonide nanomaterial

“…However, maghemite (which has the same spinel structure as magnetite) forms as a result of the oxidation of magnetite and contains only Fe +2 ions distributed randomly over the octahedral and tetrahedral sites. The magnetization of maghemite arises from uncompensated Fe +3 ions [44,45]. The cation distribution in the tetrahedral and octahedral sites strongly depends upon the methodology adopted for the synthesis.…”

Potential of Ferrite-Based Nanoparticles for Improved Cancer Therapy: Recent Progress and Challenges Ahead

Fabrication and characterization of self-assembled zinc ferrite nanospheres for biomedical applications