A dimming device is provided by using a material which is capable of transitioning between a metallic reflection state and a transmitting state. The dimming device has a layered structure including a first layer and a second layer, such that the light reflectance of the first layer changes in respo
A dimming device is provided by using a material which is capable of transitioning between a metallic reflection state and a transmitting state. The dimming device has a layered structure including a first layer and a second layer, such that the light reflectance of the first layer changes in response to an external stimulation. The first layer contains a first material whose optical characteristics change in accordance with a concentration of a specific element. The second layer contains a second material capable of containing the specific element, the second material releasing or absorbing the specific element in accordance with the external stimulation.
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The invention claimed is: 1. A dimming device comprising a layered structure including a first layer and a second layer, such that a light reflectance of the first layer changes in response to an external stimulation, wherein, the first layer contains a first material whose optical characteristics
The invention claimed is: 1. A dimming device comprising a layered structure including a first layer and a second layer, such that a light reflectance of the first layer changes in response to an external stimulation, wherein, the first layer contains a first material whose optical characteristics change in accordance with a concentration of a specific element, and the second layer contains a second material capable of containing the specific element, the second material releasing or absorbing the specific element in accordance with the external stimulation. 2. The dimming device of claim 1, wherein the element is hydrogen, and the first material is able to transition between a light reflecting state and a light transmitting state in accordance with a hydrogen concentration. 3. The dimming device of claim 2, wherein the first layer diffuse-reflects light when the first material is in the light reflecting state. 4. The dimming device of claim 3, wherein the first material is particles. 5. The dimming device of claim 4, wherein a diameter of the particles is equal to or greater than 350 nm and equal to or less than a thickness of the first layer. 6. The dimming device of claim 4, wherein the first layer contains colored particles having a visible light absorbing ability, the particles being adsorbed to the colored particles. 7. The dimming device of claim 2, wherein the second layer contains a hydrogen storage material. 8. The dimming device of claim 7 operating in a region where respective hydrogen equilibrium pressure-composition isotherms (PTC characteristic curves) of the first layer and the second layer are substantially flat. 9. The dimming device of claim 8, wherein, in the region where the PTC characteristic curves are substantially flat, hydrogen equilibrium pressures of the first layer and the second layer are about the same. 10. The dimming device of claim 9, wherein a range of hydrogen storage amount of the second layer in the region where the PTC characteristic curve is substantially flat encompasses a range of hydrogen storage amount of the first layer in the region where the PTC characteristic curve is substantially flat. 11. The dimming device of claim 1, wherein the second material releases or absorbs the specific element through exchanges of electrons. 12. The dimming device of claim 1, wherein the second material releases or absorbs the specific element in response to light irradiation. 13. The dimming device of claim 12, wherein the second layer contains a material having a photocatalytic ability. 14. The dimming device of claim 1, comprising a pair of conductive layers for forming an electric field for causing ions of the specific element to move from the second material to the first material, or from the first material to the second material. 15. The dimming device of claim 14, wherein the first and second layers are positioned between the pair of conductive layers. 16. The dimming device of claim 14, wherein the first layer has conductivity, and functions as one of the pair of conductive layers. 17. The dimming device of claim 14, wherein the second layer has conductivity, and functions as one of the pair of conductive layers. 18. The dimming device of claim 1, wherein the second layer requires a light transmitting ability. 19. The dimming device of claim 18, wherein at least one of an upper face and a lower face of the first layer has bumps and dents, and the first layer transitions between a state of diffuse-reflecting light and a state of transmitting light, further comprising a light absorbing layer for absorbing light having been transmitted through the first layer. 20. The dimming device of claim 1, wherein the second layer requires a visible light absorbing ability. 21. The dimming device of claim 20, wherein at least one of an upper face and a lower face of the first layer has bumps and dents, and the first layer transitions between a state of diffuse-reflecting light and a state of transmitting light, and the second layer is disposed opposite from a light incident face of the first layer. 22. The dimming device of claim 1, wherein at least one of the first layer and the second layer has a multi-layer structure. 23. A dimming device comprising a dimming layer whose light reflectance changes in response to an external stimulation, wherein, the dimming layer contains a first material whose optical characteristics change in accordance with a concentration of a specific element, the first material being particles. 24. The dimming device of claim 23, wherein the first material is able to transition between a light reflecting state and a light transmitting state in accordance with the concentration of the specific element. 25. The dimming device of claim 24, wherein the dimming layer diffuse-reflects light when the first material is in the light reflecting state. 26. The dimming device of claim 23, wherein a diameter of the particles is equal to or greater than 350 nm and equal to or less than a thickness of the dimming layer. 27. The dimming device of claim 23, wherein the dimming layer contains colored particles having a visible light absorbing ability, the particles being adsorbed to the colored particles. 28. The dimming device of claim 23, wherein the specific element is hydrogen. 29. A dimming device comprising a dimming layer whose light reflectance changes in response to an external stimulation, wherein the dimming layer contains a first material whose optical characteristics change in accordance with a concentration of a specific element, and contains a second material capable of containing the specific element, the second material releasing or absorbing the specific element in accordance with the external stimulation, wherein the first material is particles. 30. A display device including a plurality of pixels, each of the plurality of pixels having: a first layer containing a first material whose optical characteristics change in accordance with a concentration of a specific element; a second layer containing a second material capable of containing the specific element, the second material releasing or absorbing the specific element upon application of a voltage; and a pair of electrodes for applying the voltage to the second layer, wherein a light reflectance of the first layer changes in response to the voltage. 31. The display device of claim 30, wherein the first material is able to transition between a light reflecting state and a light transmitting state in accordance with the concentration of the specific element. 32. The display device of claim 31, wherein the first layer diffuse-reflects light when the first material is in a light reflecting state. 33. The display device of claim 32, wherein the first material is particles. 34. The display device of claim 33, wherein the first layer further contains colored particles, the first material being adsorbed to the colored particles. 35. The display device of claim 34 further comprising a backlight. 36. The display device of claim 32, wherein at least one of an upper face and a lower face of the first layer has bumps and dents. 37. The display device of claim 32, wherein the first layer transitions between a state of diffuse-reflecting light and a state of transmitting light, and the second layer requires a light transmitting ability, further comprising a light absorbing layer for absorbing light having been transmitted through the first layer and the second layer. 38. The display device of claim 32, wherein the first layer transitions between a state of diffuse-reflecting light and a state of transmitting light, the second layer having a visible light absorbing ability, and the second layer is disposed opposite from a light incident face of the first layer. 39. The display device of claim 30, wherein the second layer is disposed on a light incident side of the first layer, and functions as a color filter. 40. The display device of claim 30, wherein the specific element is hydrogen, and the second layer contains a hydrogen storage material. 41. The display device of claim 30, wherein the second material releases or absorbs the specific element through exchanges of electrons. 42. The display device of claim 30, wherein the first layer has conductivity, and functions as one of the pair of electrodes. 43. The display device of claim 30 which is a reflection type display device. 44. The display device of claim 30, wherein the first layer transitions between a state of mirror-reflecting light and a state of transmitting light, further comprising a backlight.
Den Broeder Friedrich J. A.,NLX ; Hanzen Ralph M. N.,NLX ; Duine Peter A.,NLX ; Jungblut Reiner M.,NLX ; Draijer Cornelis,NLX ; Roozeboom Freddy,NLX ; Van Der Sluis Paul,NLX, Optical switching device.
Pierce Brian M. (Moreno Valley CA) Lawrence George D. (Los Angeles CA) Chang David B. (Tustin CA) Arenberg Jonathan W. (Santa Monica CA), Semiconductor-to-metal optical switch for power limitation in the infrared.
Schurman Richard (Kirkland WA) Pearson Robert E. (Spokane WA) Reiter Steve (Kirkland WA) Schurman John (Kirkland WA) Clark Rick (Woodinville WA), Storage apparatus comprising a plurality of layers.
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