The effect of fluorine incorporation on the electrical properties of HfO 2 gate oxide were investigated, especially on the frequency dispersion, hysteresis and the density of interface states. By treating HfO 2 films using octafluorocyclobutane (C 4 F 8 ) 60MHz/2MHz dual-frequency capacitively coupled plasmas, fluorine atoms were incorporated into the HfO 2 films, but thinner C:F films also deposited on the surface of the HfO 2 films. After a following thermal annealing, the C:F films were removed, accompanied the formation of the CC group and HfF bonds. By optimizing the low frequency (LF) power, the appropriate fluorine incorporation significantly improved the quality of the gate oxide, resulting in excellent electrical properties. At the LF power of 30W, the smallest ΔV fb , hysteresis and the lowest interface state density were obtained. These improvements were attributed to the passivation of oxygen vacancies and the reduction of defects states density in the gap by forming HfF bonds.