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Sharif, Ahmed
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Publications (3/3 displayed)
- 2024Enhancement of coercivity in polybenzoxazine/CoxMg1−xFe2O4 nanoferrite composites: Synthesis and characterizationcitations
- 2023Cationic and Oxygen Defects Modulation for Tailoring Bandgap and Room Temperature Ferromagnetism of CuO via Multiple d-Block Cations
- 2019Functionality Based Design of Sustainable Bio-Composite
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document
Cationic and Oxygen Defects Modulation for Tailoring Bandgap and Room Temperature Ferromagnetism of CuO via Multiple d-Block Cations
Abstract
<jats:p>The potential of oxide-based dilute magnetic semiconductors (DMSs) for use in spintronics and magneto-optic devices has garnered a lot of attention over the years. However, the optical and magnetic behavior of these DMSs is challenging to navigate due to the complicated interactions of intrinsic defects. In these contexts, the current research takes a comprehensive look at the pristine and simultaneously multiple d-block cations (Cr, Fe, Ni, Co, and Zn)-doped CuO nanocrystals (NCs) to explain the defect interactions inside the lattice. Structural analysis revealed a highly crystalline monoclinic crystal structure in the C2/c space group. The phase stability of CuO NCs was found to be decreasing with increasing dosages of dopants, ultimately forming a secondary phase of Cu metal. Diffused reflectance spectroscopy (DRS) spectra showed a narrowing of the optical band gap, attributing it to the presence of impurity states between the conduction band minimum (CBM) and valence band maximum (VBM) as a result of doping. These impurity states can inhibit carrier recombination. Both pristine and doped CuO NCs showed ferromagnetism at ambient temperature with a paramagnetic tail at higher fields. This paramagnetic tail, explained based on the thermo-magnetization curves, corresponds to the easy flip of magnetic cations below room temperature. All the ferromagnetic feathers of CuO NCs may be traced back to the exchange interaction between the spins of magnetic ions, mediated by carrier-trapped vacancy centers. Interestingly, doped oxides showed improved ferromagnetism when used at moderate concentrations, which is related to the creation of a larger number of bound magnetic polarons (BMPs). Although higher dosages of dopants lower the concentration of BMPs by delocalizing the carriers from the defect centers.</jats:p>