Recently, many researchers invest in developing 3D display technology to produce much natural images from displays. Since most of display applications use the fixed optical components to display 3D images, the 2D images cannot be provided by the same displays. Thus, a 2D/3D switchable display is needed. In this thesis, we designed an Active-TFTs Liquid Crystal Lens for multifunctional 3D display such as, 2D/3D switchable、3D rotatable、2D/3D localized. For the on/off switch characteristics of semiconductor and high resistance liquid crystal lens, the 2D/3D localized LC lens could be obtained. By applying individual voltage on gate and source electrodes, the decided drain electrodes will be charged. Once turning off the applying voltage, if there is no potential difference between two electrodes, there won’t have lens effect, and vice versa. The electrical properties of LC layer and active layer will affect the charging and holding state. The annealing process and storage capacitor can enhance the lens holding time. This makes the Active-TFTs LC lens become more potential for applying in 3D display such as 2D/3D localized.