In the present work, copper silicide formation and the redistribution of implanted Sb + ions were studied by means of Rutherford backscattering spectrometry (RBS) and X-ray diffraction (XRD). Copper thin films, of 500 Å thickness, were evaporated, at room temperature, onto Sb implanted Si(111) wafers. Two doses, 5x10 1 4 and 5x10 1 5 Sb + cm - 2 , were used at 130 keV. The samples were heat treated in vacuum by conventional thermal annealing in the temperatures range 500-700 o C for various times. It was observed that, independent of Sb implant dose, two silicides (Cu 3 Si and Cu 4 Si) were formed in the considered temperature range. Antimony ions implanted initially in the Si substrates were found to redistribute towards the sample free surface.