Our main goals in this work were to fabricate and characterize a novel magnetic composite of graphene oxide and polystyrene (NanoFe3O4@GO/PS). Fabrication was achieved through two steps. (i) A simple and effective one-pot co-precipitation of iron (II) and (III) chlorides, in the presence of graphene oxide (GO), resulted in the fabrication of the magnetite-GO hybrid-nanoparticles (NanoFe3O4@GO). (ii) Loading of the latter over polystyrene (PS) through in situ emulsion polymerization afforded the magnetic composite (NanoFe3O4@GO/PS). Besides FTIR, UV-vis, XRD, and SEM, characterizations included TEM analysis which showed Fe3O4 Nps with 14nm size evenly spread over the GO nanosheets and NanoFe3O4@GO/PS composite. Also, the TGA analysis demonstrated the anticipated thermal stabilities for NanoFe3O4@GO and NanoFe3O4@GO/PS. The ICP-ES analysis showed a loading of 52-72wt% of Fe3O4 Nps dispersed over GO nanosheets. Finally, improvement of PS properties by its loading with magnetite-GO hybrid was established through our preliminary VSM and DMTA analyses. © 2011 Elsevier B.V.
CITATION STYLE
Kassaee, M. Z., Motamedi, E., & Majdi, M. (2011). Magnetic Fe3O4-graphene oxide/polystyrene: Fabrication and characterization of a promising nanocomposite. Chemical Engineering Journal, 172(1), 540–549. https://doi.org/10.1016/j.cej.2011.05.093
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