Methods to synthesize magnetic Fe
3O
4 nanoparticles and to modify the surface of particles are presented in the present investigation. Fe
3O
4 magnetic nanoparticles were prepared by the co-precipitation of Fe
3+ and Fe
2+, NH
3·H
2O was used as the precipitating agent to adjust the pH value, and the aging of Fe
3O
4 magnetic nanoparticles was accelerated by microwave (MW) irradiation. The obtained Fe
3O
4 magnetic nanoparticles were characterized by Fourier transform infrared spectroscopy (FT-IR), transmission electron microscopy (TEM), X-ray powder diffraction (XRD) and vibrating sample magnetometer (VSM). The average size of Fe
3O
4 crystallites was found to be around 8–9 nm. Thereafter, the surface of Fe
3O
4 magnetic nanoparticles was modified by stearic acid. The resultant sample was characterized by FT-IR, scanning electron microscopy (SEM), XRD, lipophilic degree (LD) and sedimentation test. The FT-IR results indicated that a covalent bond was formed by chemical reaction between the hydroxyl groups on the surface of Fe
3O
4 nanoparticles and carboxyl groups of stearic acid, which changed the polarity of Fe
3O
4 nanoparticles. The dispersion of Fe
3O
4 in organic solvent was greatly improved. Effects of reaction time, reaction temperature and concentration of stearic acid on particle surface modification were investigated. In addition, Fe
3O
4/polystyrene (PS) nanocomposite was synthesized by adding surface modified Fe
3O
4 magnetic nanoparticles into styrene monomer, followed by the radical polymerization. The obtained nanocomposite was tested by thermogravimetry (TG), differential scanning calorimetry (DSC) and XRD. Results revealed that the thermal stability of PS was not significantly changed after adding Fe
3O
4 nanoparticles. The Fe
3O
4 magnetic fluid was characterized using UV–vis spectrophotometer, Gouy magnetic balance and laser particle-size analyzer. The testing results showed that the magnetic fluid had excellent stability, and had susceptibility of 4.46×10
−8 and saturated magnetization of 6.56 emu/g. In addition, the mean size
d (0.99) of magnetic Fe
3O
4 nanoparticles in the fluid was 36.19 nm.
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