An optical element includes a first liquid, a second liquid, and a container, wherein the first liquid and the second liquid substantially differ in refractive index and are immiscible, the first liquid and the second liquid are hermetically placed in the container so that an interface between the first liquid and the second liquid forms a specific shape, the shape of the interface between the first liquid and the second liquid is changed by applying a voltage between the first liquid and the second liquid through electrodes formed in the container, and the container is (1) a resin container of which an inner surface portion of a container wall has a resin phase with a fluorine atom content higher than that of an internal portion of the container wall, (2) a container of which a top portion and a bottom portion are formed of a resin composition including a resin and a hindered amine compound having a transmittance of light with a wavelength of 400 nm measured for a 5 wt % chloroform solution using a cell with 10-mm optical path of 90% or more and a molecular weight of 1500 or more, or (3) a container of which an inner surface is coated with a CVD film formed of a fluorocarbon compound. According to the present invention, an optical element can be provided of which the refractive power for light passing therethrough can be efficiently controlled with a small configuration utilizing an electrowetting phenomenon and which allows continuous transmission or concentration of light from a blue laser (short-wavelength laser).