Reversible superwettability on non-coated metallic surfaces has a broad range of engineering applications, yet achieving a rapid reverse of superwettability is still technically challenging on different metals. Here we show that rapid transition between superhydrophobicity (SHB) /hydrophobicity (HB) and superhydrophilicity (SHL) within tens of minutes can be achieved on femtosecond laser-treated Al surfaces with the assistance of ultraviolet (UV) irradiation and direct-current (DC) sputtering, overcoming traditional challenges posed by Al₂O3 in wettability conversion. The extremely high wettability conversion rate on Al surfaces was found to be related to the formation of textured amorphous metal oxides, whose relative content of oxygen vacancies (OVs) can be more easily changed. In the process of wettability change, there is a linear correlation between the metal surface potential and the cosine value of the contact angle. Our findings provide a versatile approach for designing metal surfaces with rapidly reversible superwettability, enabling various applications such as oil–water separations and the controlled release of hydrophilic drugs.