In this paper, the effect of fluorine implantation on the recovery characteristics of p-channel MOSFETs (PMOSFETs) after negative bias temperature instability (NBTI) stress was investigated. PMOSFETs using fluorine ion implantation (F-I/I) performed better than those without F-I/I after NBTI stress; it is thought that F-I/I can suppress the generation of permanent damage during NBTI stress. The relationship of ΔV th and ΔSS during NBTI stress and recovery showed how much permanent damage occurred. In addition, we confirmed with a 1/f noise measurement that the device with F-I/I was immune to NBTI stress in spite of a pre-existing bulk trap caused by implantation damage. Moreover, the device with F-I/I had greater activation energy than the device without F-I/I. As indicated by the results, fluorine implantation can decrease the generation of permanent damage under NBTI stress because of the stable Si-F bond.