The size control of FePt nanoparticles has been investigated extensively for nanomagnetism. Comparing to previous works, recently, the biggest FePt nanoparticle of 17nm was prepared by reduction of Pt/Fe2O3or FePt/ Fe2O3 core-shell nanoparticle. In our work, we successfully synthesize FePt nanoparticles larger than 60 nm by polyol reduction of platinum (II) acetylacetonate and iron (III) acetylaetonate in presence of oleic acid and oleyl amine. In this one-pot synthesis, the giant FePt nanoparticles (g-FePt NPs) were synthesized with uniform size and rough surface. By adjusting several experimental parameters, including surfactant ratio, reaction time, reaction temperature, precursor, etc., we also prepare FePt with different size and morphology. According to results of TEM images, the mechanism of g-FePt NPs formation is proposed .Based on the concept of “nucleation and growth”, the nuclei concentration serves as the main factor in g-FePt NPs formation. At the nucleation stage, the nucleation rate could affect the size of formation nanocrystals. Fast nucleation provides high nuclei concentration and yields small particles; slow nucleation provides low concentration of seeds and result in large particles. In our synthetic system, the interaction of metal precursors and surfactants induces to the formation of metal complexes which inhibit the nucleation rate. Therefore, it leads to the formation of g-FePt NPs.