Abstract

Coated stable metallic nickel nanocrystals (fcc-Ni) forming micro-and nanoaggregates with different morphologies have been synthesized through a one-pot Ni-II reduction process in the presence of L-serine (Ni-1 to Ni-5). The subsequent warming under solvothermal conditions of the spherical nickel particles (Ni-1) with ethylene glycol (EG) modifies the morphology of the initial spheres to hexagonal-quasi circular plates, which are disposed as a 3D arrangement (Ni-4). Electron microscopy images indicate that the size of these aggregates is 2 mu m, the thickness of the plates being ca. 110-200 nm. The magnetic measurement results for Ni-4 show a ferromagnetic behaviour with both enhanced coercivity (92 Oe) and magnetic remanence (7 emu g(-1)), and lower magnetic saturation (43 emu g(-1)), as compared with bulk nickel. The enhancement of the ferromagnetic properties observed for all the studied NPs is attributed to their dependence on the shape anisotropy and dipolar interactions.