Effects of Chromium(III) Ion Doping on Structural, Optical, and Magnetic Properties of Nickel–Cobalt Ferrite Nanoparticle

Abstract: Chromium(III)-doped nickel–ferrite nanoparticles, with the general formula Ni0.5Co0.5CrxFe2−xO4 (x = 0.0, 0.10, and 0.20), were prepared by the sol–gel method. The prepared samples were sintered at 700°C for 5 hr. The XRD result showed that the prepared samples are in single-phase partially inverse cubic spinel ferrite structures with space group Fd3m. From the XRD characterization, the average crystallite size for all samples decreased from 39.54 to 30.42 nm and the lattice parameters are found to be 0.8324, … Show more

“…Figure 4 shows the variation of the extinction coefficient (k) with wavelength for CuFe(1-x) CrxO4 samples at different values of x, which was found using equation [11]: K= That figure shows the refractive index values range between 1.4 and 2.6. In general, an increase is noticed in the refractive index by increasing the percentage of replacement with chromium ions instead of iron ions.…”

Optical Properties of (CuFe(1-x) CrxO4) Nanostructures Prepared by Chemical Deposition Method

“…Figure 4 shows the variation of the extinction coefficient (k) with wavelength for CuFe(1-x) CrxO4 samples at different values of x, which was found using equation [11]: K= That figure shows the refractive index values range between 1.4 and 2.6. In general, an increase is noticed in the refractive index by increasing the percentage of replacement with chromium ions instead of iron ions.…”

Optical Properties of (CuFe(1-x) CrxO4) Nanostructures Prepared by Chemical Deposition Method

Effect of Cr substitution on nickel spinel ferrite’s surface morphology, structure, antibacterial activity and magnetic properties