Abstract
Synthesis and Characterization of Magnetite Nanoparticles and the Effect of [Fe(sac)2(H2O)4].2H2O complex on its magnetic properties
Highlights
The nano structure of Fe3O4 with diameters (x,y,z) ranging from 1 and 100 nm and find an important nano material because it plays a main role in various fields as it was used as an adsorbent in micro solid phase extraction of metals or dyes [1, 2], data storage [3], biosensing [4] and drug delivery [5]
There has been an important attention in the chemistry of metal ions bounded saccharine ligand over the past two decades ever since its demonstrations a varied kind of metal ion bonding fashions, and it is possibly useful as co-ligand in bioactivity studies
The comparatively high vibrating sample magnetometer (VSM) value indicates good superparamagnetism of Fe3O4NPs and [Fe(sac)2(H2O)4]@Fe3O4NPs and the results show that the addition of ferrous-saccharine complex reduced the magnetism properties of the prepared Fe3O4 NPs
Summary
The nano structure of Fe3O4 with diameters (x,y,z) ranging from 1 and 100 nm and find an important nano material because it plays a main role in various fields as it was used as an adsorbent in micro solid phase extraction of metals or dyes [1, 2], data storage [3], biosensing [4] and drug delivery [5]. There has been an important attention in the chemistry of metal ions bounded saccharine ligand over the past two decades ever since its demonstrations a varied kind of metal ion bonding fashions, and it is possibly useful as co-ligand in bioactivity studies. This ligand showed a variety of coordination modes to metals and was able to bind in a monodentate mode through either nitrogen atom via covalent bond, negatively charged or through the oxygen atom of carbonyl group. We report the magnetism properties of as-prepared inorganic core-shell nanoparticle
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