1. Experimental Investigation of the Coprecipitation Method: An Approach to Obtain Magnetite and Maghemite Nanoparticles with Improved Properties
- Author
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Ricardo Bentes Azevedo, Carolina Madeira Lucci, Wilson Sacchi Peternele, Maria Luiza Fascineli, Jaqueline Rodrigues da Silva, Victoria Monge Fuentes, and Renata C. Silva
- Subjects
Materials science ,Article Subject ,Coprecipitation ,Maghemite ,Nanoparticle ,Nanotechnology ,engineering.material ,chemistry.chemical_compound ,Magnetization ,chemistry ,Chemical engineering ,Sodium hydroxide ,lcsh:Technology (General) ,engineering ,Hydroxide ,lcsh:T1-995 ,General Materials Science ,Magnetite ,Superparamagnetism - Abstract
Iron oxides that exhibit magnetic properties have been widely studied not only from an academic standpoint, but also for numerous applications in different fields of knowledge, such as biomedical and technological research. In this work, magnetite and maghemite nanoparticles were synthesized by chemical coprecipitation of FeCl2·4H2O and FeCl3·6H2O (proportion of 1 : 2) in three different cases using two bases (sodium hydroxide and hydroxide ammonium) as precipitants. The chemical coprecipitation method was selected for its simplicity, convenience, reproducibility, and low cost in the use of glassware. The nanostructured materials were characterized by transmission electron microscopy (TEM), X-ray diffraction (XRD) and magnetometry (VSM). The objective of this work is to study the variation in the morphological characteristics and physical properties of nanoparticles magnetic as a function of the different production processes. As observed by TEM, the materials obtained from the precipitating agent NH4OH are more uniform than those obtained with NaOH. From XRD pattern analysis, it appears that the obtained materials correspond to magnetite and maghemite and, from magnetometry VSM analysis, show high magnetization as a function of the magnetic field at room temperature, indicating that these materials are superparamagnetic.
- Published
- 2014