In this work, we study the effect of annealing and ageing treatments on the behavior of antimony atoms implanted in Si(111) targets. The ion implantation was performed at 120 keV energy to a dose of 2.3 x 10(15) Sb+ cm(-2). Concerning the annealing treatment, it has been carried out at 900 degrees C during 30 minutes (under vacuum). The samples have been analyzed in two steps: immediately after their elaboration and after an ageing period of 4 years and 4 months. Several techniques have been applied for samples analysis: Rutherford backscattering spectroscopy (RBS), X-ray diffraction (XRD) and electrical measurements. Before the ageing period, a good recovery of radiation damage has been obtained and degrees 50% of the dopant was redistributed into substitutional silicon sites. However, degrees 22% of antimony has been lost from the Si substrates. After the ageing period, the fraction of substituted atoms remained unchanged but a quantity of approximately 20% has again been lost from the specimens. This quantity provided from antimony atoms which remained into irregular positions of Si lattice.