We report a systematic investigation of the magnetic properties of Ni nanoparticles after three extents of oxidation. First we prepared two sizes samples by PVD(physical vapor deposition). Then the samples were oxidized by 25 days. A series of copper nanoparticles were oxided to form core-shell structure. We find that TB of the core-shell structure Ni /NiO(4.6nm) increases 50K, the TB of the other one sample(2nm) increases 20K. When temperature is at 40 K, all of the sample have a peak in the field-cooled (FC) temperature-dependent magnetization .When the NiO shell is wider, the phenomenen is distincter. By the NiO shell thickness from 0.13nm to 0.27nm, the maximum coercivity of the sample(4.6nm) increases 1.5 times. In the same, by the NiO shell thickness from 0.16nm to 0.3nm the the maximum coercivity of the other sample(2nm) increased 4 times.