ACTIVE MATRIX ELECTROCHROMIC DISPLAY

Abstract

The present invention is an active matrix electrochromic display architecture where the active components are placed on the backplane of the display, thereby maximizing the viewable pixel area. The cathode of the electrochromic pixel is placed on top of the active components, with respect to the viewer, thereby allowing the active components to be as large as desired while not interfering with the viewable area of the pixel.

Description

Claims

1. An active matrix electrochromic display device comprising: a first electrode comprising: a first substrate;an active component associated with the first substrate, the active component configured for controlling the electric potential within the electrochromic display device;a reflective insulating layer associated with the active component;a first conductor associated with the insulating layer, wherein the first conductor is electrically coupled to the active component by way of an operable connection in the insulating layer; anda semiconducting layer associated with the first conductor, the semiconducting layer having an electrochromophore adsorbed thereto;a second electrode comprising: a second substrate being substantially transparent;a second conductor associated with the second substrate, the second conductor being substantially transparent; anda substantially transparent semiconducting layer associated with the second conductor; andan electrolyte between the first and second electrode.

2. The electrochromic display device of claim 1, wherein the semiconducting layer associated with the first conductor is a nano-structured metallic oxide semiconducting film.

3. The electrochromic display device of claim 1, wherein the substantially transparent semiconducting layer is a nano-structured metallic oxide semiconducting film.

4. The electrochromic display device of claim 1, wherein the active component is a transistor.

5. The electrochromic display device of claim 4, wherein the transistor is a thin film transistor (TFT).

6. The electrochromic display device of claim 4, wherein the transistor covers substantially the same area as the semiconducting layer having an electrochromophore adsorbed thereto.

7. The electrochromic display device of claim 1, wherein the active component is a thin film diode (TFD).

8. The electrochromic display device of claim 1, wherein the first substrate is selected from the group consisting of: glass, plastic, wood, leather, fabric, and metal.

9. The electrochromic display device of claim 1, wherein the second substrate is selected from the group consisting of: glass and plastic.

10. The electrochromic display device of claim 1, wherein the second conductor is selected from the group consisting of: fluorine doped tin oxide and indium doped tin oxide.

11. The electrochromic display device of claim 1, wherein the reflective insulating layer comprises polyimide.

12. The electrochromic display device of claim 11, wherein the reflective insulating layer further comprises a plurality of reflective particles distributed throughout the reflective insulating layer.

13. The electrochromic display device of claim 1, wherein the semiconducting layer having an electrochromophore adsorbed thereto appears generally black under a first applied electric potential, and appears generally transparent under a second applied electric potential.

14. The electrochromic display device of claim 11, wherein the coloration of the semiconducting layer having an electrochromophore adsorbed thereto is selectively adjustable.

15. The electrochromic display device of claim 1, wherein the semiconducting layer having an electrochromophore adsorbed thereto appears generally colored under a first applied electric potential, and appears generally transparent under a second applied electric potential.

16. The electrochromic display device of claim 15, wherein a color of a semiconducting layer having an electrochromophore adsorbed thereto under a first applied electric potential is selected from the list comprising: red, green, and blue.

17. The electrochromic display device of claim 15, wherein the coloration of the semiconducting layer having an electrochromophore adsorbed thereto is selectively adjustable.

18. The electrochromic display device of claim 1, wherein the insulating layer comprises a well, and the semiconducting layer having an electrochromophore adsorbed thereto is associated with the well.

19. The electrochromic display device of claim 1, wherein the reflective insulating layer is selectively colored.

20. The electrochromic display device of claim 1, wherein the adsorbed electrochromophore is selectively colored.

21. An active matrix electrochromic display device having a plurality of pixels, the device comprising: a first electrode comprising: a first substrate;a plurality of active components associated with the first substrate, one for each pixel, the active components configured for controlling the electric potential within each pixel;a reflective insulating layer associated with the plurality of active components and substantially covering the plurality of active components, the reflective insulating layer comprising: a plurality of wells, each well comprising: an operable connection to a respective active component;a substantially transparent conductor associated with each well and electrically coupled to a respective active component by way of an operable connection;a semiconducting layer having an electrochromophore adsorbed thereto;a second electrode comprising: a second substrate being substantially transparent;a second conductor associated with the second substrate, the second conductor being substantially transparent; anda substantially transparent semiconducting layer associated with the second conductor; andan electrolyte between the first and second electrodes.

22. The electrochromic display device of claim 21, wherein the semiconducting layer associated with the first conductor is a nano-structured metallic oxide semiconducting film.

23. The electrochromic display device of claim 21, wherein the substantially transparent semiconducting layer is a nano-structured metallic oxide semiconducting film.

24. The electrochromic display device of claim 21, wherein the active components are transistors.

25. The electrochromic display device of claim 24, wherein the transistors are thin film transistors (TFTs).

26. The electrochromic display device of claim 24, wherein each transistor covers substantially the same area as a respective semiconducting layer having an electrochromophore adsorbed thereto.

27. The electrochromic display device of claim 21, wherein the active components are thin film diodes (TFDs).

28. The electrochromic display device of claim 21, wherein the first substrate is selected from the group consisting of: glass, plastic, wood, leather, fabric, and metal.

29. The electrochromic display device of claim 21, wherein the second substrate is selected from the group consisting of: glass and plastic.

30. The electrochromic display device of claim 21, wherein the second conductor is selected from the group consisting of: fluorine doped tin oxide and indium doped tin oxide.

31. The electrochromic display device of claim 21, wherein the reflective insulating layer comprises polyimide.

32. The electrochromic display device of claim 31, wherein the reflective insulating layer further comprises a plurality of reflective particles distributed throughout the reflective insulating layer.

33. The electrochromic display device of claim 31, wherein each semiconducting layer having an electrochromophore adsorbed thereto appears generally black under a first applied electric potential, and appears generally transparent under a second applied electric potential.

34. The electrochromic display device of claim 31, wherein the coloration of each semiconducting layer having an electrochromophore adsorbed thereto is selectively adjustable.

35. The electrochromic display device of claim 31, wherein each semiconducting layer having an electrochromophore adsorbed thereto appears generally colored under a first applied electric potential, and appears generally transparent under a second applied electric potential.

36. The electrochromic display device of claim 35, wherein a color of a semiconducting layer having an electrochromophore adsorbed thereto under a first applied electric potential is selected from the list comprising: red, green, and blue.

37. The electrochromic display device of claim 35, wherein the coloration of each semiconducting layer having an electrochromophore adsorbed thereto is selectively adjustable.

38. The electrochromic display device of claim 21, wherein the reflective insulating layer is selectively colored.

39. An active matrix electrochromic display for displaying images to a viewer, the display comprising: a backplane having a matrix of active components, a reflective layer, and a nano-structured film having an electrochromophore adsorbed thereto;a substantially transparent frontplane having a nano-structured semiconducting film; andan electrolyte between the backplane and the frontplane;wherein the selective application of electric potential via the active components causes a color change in the electrochromophore visible to the viewer through the substantially transparent frontplane by way of light reflected from the reflective layer.