Display panel, display device, display method and color convertor

What is claimed is: 1. A display panel, comprising: a first display structure, comprising a first liquid crystal layer; a second display structure, on the first display structure, the second display structure comprising a second liquid crystal layer; and a quantum rod layer on a side of the second display structure distal to the first display structure; wherein: wherein the first display structure is configured to convert an incident blue light ray into a linearly polarized blue light, and control a luminance of the first display structure by controlling deflection angles of liquid crystals in the first liquid crystal layer; the second display structure is configured to receive the linearly polarized blue light that exits from the first display structure, and change polarization direction of the linearly polarized blue light incident to the quantum rod layer by controlling deflection angles of liquid crystals in the second liquid crystal layer; the display panel comprises a plurality of pixels, a respective one of the plurality of pixels consisting of a first independently addressable subpixel and a second independently addressable subpixel, the first independently addressable subpixel and the second independently addressable subpixel are configured to display a full-color RGB pixel image; the quantum rod layer in the first independently addressable subpixel consists of red light emitting quantum rods; the quantum rod layer in the second independently addressable subpixel consists of green light emitting quantum rods; a first color of light emitted from the red light emitting quantum rods of the first independently addressable subpixel is independently tunable by independently changing a first polarization direction of the linearly polarized blue light incident to the first independently addressable subpixel to a second polarization direction; and a second color of light emitted from the green light emitting quantum rods of the second independently addressable subpixel is independently tunable by independently changing a third polarization direction of the linearly polarized blue light incident to the second independently addressable subpixel to a fourth polarization direction. 2. The display panel according to claim 1 , wherein: the display panel is absent of any polarizer between the second liquid crystal layer and the quantum rod layer. 3. The display panel according to claim 1 , wherein, the quantum rod layer comprises a red quantum rod unit and a green quantum rod unit; the red quantum rod unit comprises a plurality of red quantum rods that are arranged in a first preset direction; the green quantum rod unit comprises a plurality of green quantum rods that are arranged in a second preset direction; when polarization directions of the linearly polarized blue lights that are incident to the red quantum rod unit and the green quantum rod unit are respectively perpendicular to arrangement directions of the quantum rods of the red quantum rod unit and the green quantum rod unit, both of the colors of the light rays that exit from the red quantum rod unit and the green quantum rod unit of the quantum rod layer are blue; and when polarization directions of the linearly polarized blue lights that are incident to the red quantum rod unit and the green quantum rod unit are respectively parallel to arrangement directions of the quantum rods of the red quantum rod unit and the green quantum rod unit, the color of the light ray that exits from the red quantum rod unit of the quantum rod layer is red, and the color of the light ray that exits from the green quantum rod unit of the quantum rod layer is green. 4. The display panel according to claim 1 , wherein the first display structure comprises: a first substrate that is disposed on a first side of the first display structure; a second substrate that is disposed on a second side of the first display structure, wherein the second substrate is arranged oppositely to the first substrate; a first polarizer that is disposed on a first side of the first substrate; a second polarizer that is disposed on a second side of the second substrate; and a first electrode assembly that is provided between the first substrate and the second substrate, wherein the first electrode assembly is used for controlling deflection angle of liquid crystal molecules of the first liquid crystal layer. 5. The display panel according to claim 4 , wherein the first electrode assembly comprises: a first pixel electrode and a first common electrode; and the first pixel electrode is disposed on the side of the first substrate that is facing the first liquid crystal layer, and the first common electrode is disposed on the side of the second substrate that is facing the first liquid crystal layer; or the first pixel electrode and the first common electrode are disposed on the side of the first substrate that is facing the first liquid crystal layer; or the first pixel electrode and the first common electrode are disposed on the side of the second substrate that is facing the first liquid crystal layer. 6. The display panel according to claim 4 , wherein the second display structure comprises: a third substrate that is disposed on a first side of the second display structure; a fourth substrate that is disposed on the second side of the second display structure, wherein the fourth substrate is arranged oppositely to the third substrate; and a second electrode assembly that is provided between the third substrate and the fourth substrate, for controlling deflection angle of liquid crystal molecules of the second liquid crystal layer. 7. The display panel according to claim 6 , wherein the second electrode assembly comprises: a second pixel electrode and a second common electrode; and the second pixel electrode is disposed on the side of the third substrate that is facing the second liquid crystal layer, and the second common electrode is disposed on the side of the fourth substrate that is facing the second liquid crystal layer. 8. The display panel according to claim 6 , wherein the second electrode assembly comprises: a second pixel electrode and a second common electrode; and the second pixel electrode and the second common electrode are disposed on the side of the third substrate that is facing the second liquid crystal layer. 9. The display panel according to claim 6 , wherein the second electrode assembly comprises: a second pixel electrode and a second common electrode; and the second pixel electrode and the second common electrode are disposed on the side of the fourth substrate that is facing the second liquid crystal layer. 10. The display panel according to claim 6 , wherein the second substrate also serves as the third substrate. 11. The display panel according to claim 1 , wherein the quantum rod layer comprises a material selected from a group consisting of CdS, CdSe, CdTe, and ZnSe. 12. A display device, comprising the display panel according to claim 1 . 13. The display device according to claim 12 , further comprising: a blue light backlight source to emit blue light to the first display structure. 14. A display method applied to a display panel: wherein the display panel comprises: a first display structure, comprising a first liquid crystal layer; a second display structure, on the first display structure, the second display structure comprising a second liquid crystal layer; and a quantum rod layer on a side of the second display structure distal to the first display structure; wherein: wherein the first display structure is configured to convert an in