Effect of Cr3+ doped on electronic and magnetic properties of SrFe12O19 by first-principles study

An effective combustion technique is used to synthesize Sr0.8La0.2Fe12-xCuxO19 (x = 0,1) M-type strontium hexagonal ferrite nanoparticles (SHFNPs). The impact of La and La-Cu substitution on the structural, microstructural, and magnetic characteristics of SHFNPs is scrutinized. The samples are characterized using several experimental techniques, such as X-ray diffraction (XRD), Raman spectroscopy (RS), X-ray photoelectron spectroscopy (XPS), field emission scanning electron microscopy (FESEM), and vibrating sample magnetometer (VSM). The obtained results reveal that the single lattice structure of the substituted strontium hexaferrite can be acquired by transforming Fe3+ to Fe2+ on the 2a site. Raman spectroscopy (RS) verifies the formation of all crystallographic sites of hexaferrite. The broadening of 4f2 and 12k peaks indicates the presence of disorder at the crystal sites resulting from the change in the chemical environment after doping with Cu2+ ions. FESEM images reveal flat hexagonal facets of the particle that signify the magneto-plumbite structure. The magnetic results provide high values of both intrinsic coercivity and (BH)max. The obtained data constitute good magnetic characteristics for perpetual magnet applications. Furthermore, the reduced coercivity of the Sr0.8La0.2Fe11CuO19 (SLCHF) sample with high magnetizations can be used to create microwave absorbing and data storage materials.

show abstract

“…configuration. This, specifically, clarifies an increase in the lattice parameter c and consequently, the variation of the unit cell volume [32].…”

Section: Xrd Analysismentioning

confidence: 59%

Multi-susceptible single-phased hexaferrite with significant magnetic switching properties by selectively doping

2023

View full text Add to dashboard Cite

show abstract

“…4a-4f and 5a and 5b)), with space groups provided in the figure caption for all variants. [6][7][8][9][10] While garnets and spinels exist within cubic symmetry, this symmetry is broken in hexaferrite systems by the introduction of a late period II cation, typically barium or strontium, stabilizing the Patterson symmetry space group P63/mmc (#194) for M-, W-and Ztype phases, and R 3 M space group (#166) for the X-, Y-, and Utype phases. It is noteworthy that the hexaferrite structures depicted as Figs.…”

Section: Chemistry Structure and Magnetism Of Select Ferrite Systemsmentioning

confidence: 99%

Review—Goodenough-Kanamori-Anderson Rules-Based Design of Modern Radio-Frequency Magnetoceramics for 5G Advanced Functionality

Harris

Andalib

2022

ECS J. Solid State Sci. Technol.

View full text Add to dashboard Cite

5th generation (5G) wireless technologies promise a transition from 4G 2.3 GHz to Ka-band (i.e., 28-33 GHz) frequencies and the promise of revolutionary increases in data handling capacity and transfer rates at greatly reduced latency, among other benefits. A key enabling 5G technology is the development of massive multiple input – multiple output (m-MIMO) antenna arrays. m-MIMO array elements simultaneously transmit and receive data providing true full duplexing in time and frequency domains. Small cells, i.e., mobile and stationary base stations used to supplement existing 4G network infrastructure to boost signals in dense urban environments, will provide coverage over smaller areas to efficiently transmit signals over the millimeter wave spectrum. In order to realize these extraordinary advances, key materials must be developed, chief among them RF magnetoceramics. Here, we describe application of the long-standing Goodenough-Kanamori-Anderson rules for superexchange as guiding principles in the design of next generation magnetoceramics to meet the challenges of 5G wireless communication technologies and their timely implementation.

show abstract

Goodenough–Kanamori–Anderson Rules of Superexchange Applied to Ferrite Systems

Harris¹,

Andalib²

2022

Modern Ferrites

View full text Add to dashboard Cite

Effect of Cr3+ doped on electronic and magnetic properties of SrFe12O19 by first-principles study

Cited by 6 publications

References 34 publications

Multi-susceptible single-phased hexaferrite with significant magnetic switching properties by selectively doping

Multi-susceptible single-phased hexaferrite with significant magnetic switching properties by selectively doping

Review—Goodenough-Kanamori-Anderson Rules-Based Design of Modern Radio-Frequency Magnetoceramics for 5G Advanced Functionality

Goodenough–Kanamori–Anderson Rules of Superexchange Applied to Ferrite Systems

Contact Info

Product

Resources

About