In mobile devices, camera has become a basic function today, almost every mobiles has a camera. In photography, optical zoom was eager for consumers nowadays. Optical zoom utilized mechanical movement of lens elements to change the focal length. Since the limit of space, there are no optical zoomable cameras in mobile devices. Liquid Crystal lens is type of electrically-tunable focus lens. However, high operating voltage and slow focusing time are two of the major issues in the liquid crystal lens applications. Spherical Gradient Driven Liquid Crystal Lens (sGD-LC lens) was proposed to solve these two issues. A high-resistance layer was spin-coated above the patterned electrodes, which create a gradient distribution of electric field and preserved majority energy was applied. For a specification with 60m LC cell-gap and 2mm lens aperture, the operating voltage was reduced down to less than 4 volts for 5cm focal length, and the focusing time was dramatically improved to 0.8 seconds. Combining with sGD-LC lens, an auto-focusing system for mobile lens application was realized in this thesis. These features made mobile devices employing LC lens feasible and practical, while LC optical zoom system is also realizable by appropriate optical design.