Created M-type hexaferrite(SrFe12O19) and spinel(NiFe2O4) using the calotropis crown flowers extract .
Various properties with magnetic behaviour and different M:S ratios obtained.
https://t.co/0rPxxV8s45
#MaterialsScience#NanoComposites#XRD#CalotropisGigantea
"M-type Ba0.4Pb0.6Fe12-xCoxO19 hexaferrites show diverse magnetic and dielectric behaviors, offering potential for lossless applications due to low loss tangent."
DOI : https://t.co/ECAVJBqWCd
#SolGelMethod#Hexaferrite#Research
Cu-Cr co-substituted M-type barium hexaferrites have lossless, low-frequency uses in mentha leaf extract synthesis due to its structural, thermal, magnetic, surface morphological, Raman spectroscopic, and dielectric
https://t.co/dTw48bsB47
#MagneticMaterials#GreenSynthesis
1340°C synthesized samarium-cadmium hexaferrite samples show a multi-domain nature, making them suitable for electromagnets, transformer cores, and electric motors.
#hexaferrites#characterizations
https://t.co/u5lnsrGtrQ
Green synthesis of M-type calcium hexaferrite (CaFe12O19) using Azadirachta indica and Murraya koenigii leaves extracts affected structural and magnetic properties.
#GreenSynthesis#Hexaferrites#PlantExtracts#MagneticMaterials
DOI: https://t.co/CsCrVGveaE
At 1340°C, X-type hexaferrites displayed soft magnetic features like,variable magnetic saturation, coercivity, and low frequency characteristics. Mössbauer analysis validated the relevance for electromagnets and transformers.
DOI: https://t.co/YL3wj6IFAS
#research#innovation
SrFe12O19 and NiFe2O4 nanoferrite powders were created using Calotropis gigantea flower extract. A shift from hard to soft ferrite behavior was seen in the magnetic characteristics of nanocomposites with different ratios.
https://t.co/Ipk03Y3VFc
#research#dielectricproperties