XRD and magnetic hysteresis loops were used to analyze structural and magnetic properties. Results indicate M-type hexagonal ferrite and hematite phases,with saturation magnetization rising lanthanum substitution increases.
https://t.co/WBXbYeoE2m
#magneticproperties#XRDanalysis
By using Azadirachta indica and Murraya koenigii leaves extracts, they made M-type calcium hexaferrite (CaM).
DOI :- https://t.co/GHv1aeAQ9F
#GreenSynthesis#PlantExtracts#MaterialScience
In our research,we investigated Cu-Cr co-substituted M-type barium hexaferrites.Heat treatment at 1100°C confirmed M-phase formation.Samples making them promising for lossless,low-frequency applications.
DOI:https://t.co/7CxavaXVXP
#hexaferrites#research#M_phase
Sr-Co hexaferrites with La substitution were synthesized using heat treatment. X-ray diffraction confirmed M-type hexagonal structure s. Magnetic analysis showed saturation magnetization.
#materialsscience#Research
https://t.co/FVVBxZk3gT
The synthesized hexaferrites Sr0.5Co0.5LaxFe12-xO19 (x = 0.0 0.05, 0.15, 0.2) had M-type hexagonal ferrite and hematite phases. Increased lanthanum substitution led to higher saturation magnetization at room temperature
https://t.co/CWrXMqAIrj
#physics#magneticmaterials
The synthesized hexaferrites Sr0.5Co0.5LaxFe12-xO19 (x = 0.0 0.05, 0.15, 0.2) had M-type hexagonal ferrite and hematite phases. Increased lanthanum substitution led to higher saturation magnetization at room temperature
https://t.co/BJspDZ7Q5c…
#physics#magneticmaterials
Murraya koenigii leaves produced CaM hexaferrites with a magnetization of 11.78 Am2/kg and 3.56 Am2/kg, respectively. These samples had a soft magnetic nature and a multidomain structure with a 2.01 eV energy bandgap.
https://t.co/3FJwMl1HIB
#CaMHexaferrites#MurrayaKoenigii