Lenticular unit for two-dimensional/three-dimensional auto-stereoscopic display

What is claimed is: 1. A lenticular unit, comprising: a transparent substrate; first electrodes disposed on the transparent substrate; a second electrode, the first electrodes being transparent and comprising: a positive electrode configured to receive a positive driving voltage with respect to the second electrode for applying an electrical potential to an electro-active polymer; a negative electrode configured to receive a negative driving voltage with respect to the second electrode for applying the electrical potential to the electro-active polymer; and the second electrode being transparent and having elasticity; and a material layer disposed between the first electrodes and the second electrode, the material layer comprising the electro-active polymer material having a piezoelectric effect, the electro-active polymer material being deformable into or from a lens shape in response to the electric potential between the first electrodes and the second electrode, wherein the electro-active polymer material corresponding to the positive electrode expands in a thickness direction of the material layer, and the electro-active polymer material corresponding to the negative electrode shrinks in the thickness direction of the material layer according to the piezoelectric effect. 2. The lenticular unit of claim 1 , wherein the second electrode comprises a graphene film. 3. The lenticular unit of claim 2 , wherein the first electrodes comprise a graphene film. 4. The lenticular unit of claim 3 , wherein the electro-active polymer material comprises polyvinylidene fluoride (PVDF). 5. The lenticular unit of claim 4 , wherein the lens shape is convex. 6. The lenticular unit of claim 2 , wherein the electro-active polymer material comprises polyvinylidene fluoride (PVDF). 7. The lenticular unit of claim 6 , wherein the lens shape is convex. 8. The lenticular unit of claim 1 , wherein the positive electrode is configured to expand a thickness of the material layer disposed between the positive electrode and the second layer in response to receiving the positive driving voltage with respect to the second electrode, and wherein the negative electrode is configured to contract a thickness of the material layer disposed between the negative electrode and the second layer in response to receiving the negative driving voltage with respect to the second electrode. 9. A two-dimensional (2D)/three-dimensional (3D)-switchable auto-stereoscopic display device, comprising: a display unit configured to provide an image; and a lenticular unit disposed in front of the display unit and comprising: a transparent substrate; first electrodes disposed on the transparent substrate; a second electrode, the first electrodes being transparent and comprising: a positive electrode configured to receive a positive driving voltage with respect to the second electrode for applying an electrical potential to an electro-active polymer; a negative electrode configured to receive a negative driving voltage with respect to the second electrode for applying the electrical potential to the electro-active polymer; and the second electrode being transparent and having elasticity; and a material layer disposed between the first electrodes and the second electrode, the material layer comprising the electro-active polymer material having a piezoelectric effect, the electro-active polymer material being deformable in response to the electric potential between the first electrodes and the second electrode, wherein in one of a 2D display mode and a 3D display mode, no potential is applied between the first electrodes and the second electrode so that the material layer of the lenticular unit is not deformed; and wherein in the other of the 2D display mode and the 3D display mode, a potential is applied between the first electrodes and the second electrode so that the material of the lenticular unit is deformed, wherein the electro-active polymer material corresponding to the positive electrode expands in a thickness direction of the material layer, and the electro-active polymer material corresponding to the negative electrode shrinks in the thickness direction of the material layer according to the piezoelectric effect. 10. The 2D/3D-switchable auto-stereoscopic display device of claim 9 , wherein the second electrode comprises a graphene film. 11. The 2D/3D-switchable auto-stereoscopic display device of claim 10 , wherein the first electrodes comprise a graphene film. 12. The 2D/3D-switchable auto-stereoscopic display device of claim 9 , wherein the electro-active polymer material comprises polyvinylidene fluoride (PVDF). 13. The 2D/3D-switchable auto-stereoscopic display device of claim 12 , wherein the lens shape is convex. 14. A lenticular lens sheet, comprising: a transparent substrate; first electrodes disposed on the transparent substrate, the first electrodes being transparent; a second electrode, the second electrode being transparent and having elasticity, the second electrode comprising: a positive electrode configured to receive a positive driving voltage with respect to the second electrode for applying an electrical potential to an electro-active polymer; and a negative electrode configured to receive a negative driving voltage with respect to the second electrode for applying the electrical potential to the electro-active polymer; and a material layer disposed between the first electrodes and the second electrode, the material layer comprising the electro-active polymer material having a piezoelectric effect, the electro-active polymer material being deformable into or from an array of cylindrical lenses having convex-ribbed profiles in response to the electric potential between the first electrodes and the second electrode, wherein the electro-active polymer material corresponding to the positive electrode expands in a thickness direction of the material layer, and the electro-active polymer material corresponding to the negative electrode shrinks in the thickness direction of the material layer according to the piezoelectric effect. 15. The lenticular lens sheet of claim 14 , wherein the electro-active polymer material comprises polyvinylidene fluoride (PVDF). 16. The lenticular lens sheet of claim 15 , wherein the second electrode comprises a graphene film, or the first electrodes and the second electrode comprise a grapheme film. 17. The lenticular lens sheet of claim 14 , wherein the positive electrode is configured to expand a thickness of the material layer disposed between the positive electrode and the second layer in response to receiving the positive driving voltage with respect to the second electrode, and wherein the negative electrode is configured to contract a thickness of the material layer disposed between the negative electrode and the second layer in response to receiving the negative driving voltage with respect to the second electrode. 18. A method of displaying an image using a display panel and a lenticular unit disposed in front of the display panel, wherein the lenticular unit comprises a first electrode comprising a positive electrode and a negative electrode, a second electrode, and an electro-active polymer material having a piezoelectric effect disposed between the first electrode and the second electrode, the method comprising: in a first display mode used to display one of a 2D image and a 3D image, not deforming the electro-active polymer material of the lenticular unit through which the displayed image passes; and in a