Manganese ferrite nanoparticles

Carta D, Casula MF, Mountjoy G, Corrias A (2008) Formation and cation distribution in supported manganese ferrite nanoparticles an X-ray absorption study. Phys Chem Chem Phys 10 3108-3117... 

Fig. 4 Histogram of diameter of manganese ferrite nanoparticles versus number of particles with diameter within 0.05 pm intervals (data for 414 particles in photograph in Fig. 5)...

Mazario E, Sdnchez-Maicos J, Menendez N et al (2015) High specific absorption rate and transverse relaxivity effects in manganese ferrite nanoparticles obtained by an electrochemical route. J Phys Chem C 119 6828-6834... 

Note We have done exactly these experiments on others ferrites i.e. zinc ferrite and manganese ferrite and have obtained for each of them optimum parameters. But to prevent long or repeated exposures and similar experiments, we reported only the experiments of nickel ferrite nanoparticles and for others ferrites we sufficed only to report of values (Table3). 

Chastellain et al. confirmed the sensitivity of the power loss with respect to the size distribution, comparing power losses of silica-iron oxide nanocomposites synthesized by different routes [92]. Although for biomedical applications iron oxides are the main materials being studied because of their low toxicity, several studies have also evaluated the role of other materials for hyperthermia such as manganese perovskite nanoparticles [33]. The heating properties of several ferrites synthesized by sol-gel (Fe, Li, Ni/Zn/Cu, Co, Co/Ni, Ba, and Sr ferrites) have also been characterized [93]. However, in this kind of studies, it is complicated to isolate the effect of the composition on the heating properties of the material from other factors that may influence as well, such as the particle size or size distribution. 

Poddar P, Wilson JL, Srikanth H et al (2004) Magnetic properties of conducting polymer doped with manganese-zinc ferrite nanoparticles. Nanotechnology 15 S570-S574... 

In addition to the above, preparation in w/o microemulsions of nanoparticles of various other types of compounds, viz. silica-coated iron oxide, Fe203-Ag nanocomposite, oxides of ytrium, erbium, neodymium, vanadium and cobalt, titanates of barium and lead, ferrites of barium, strontium, manganese, cobalt and zinc, oxide superconductors, aluminates, zirconium silicate, barium tungstate, phosphates of calcium, aluminium and zinc, carbonates of calcium and barium, sulphides of molybdenum and sodium, selenides of cadmium and silver etc. have been reported. Preparative sources and related elaboration can be found in [24]. 

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