Organic electroluminescence element and an exposure unit and image-forming apparatus both using the element
First Claim
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1. An organic electroluminescence element comprising, on a substrate:
- an anode which acts as a hole injection electrode;
a cathode which acts as an electron injection electrode;
a plurality of light emission layers each having a light emission region; and
a charge generation layer which injects electrons into a light emission layer arranged close to said anode and holes into a light emission layer arranged close to said cathode, and said light emission layers and said charge generation layer being arranged between said anode and said cathode;
wherein the work function of said charge generation layer is configured higher than the ionization potential of said light emission layer arranged close to said anode.
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Abstract
Providing an exposure unit using an organic electroluminescence element with a large emitted light quantity.
The organic electroluminescence element has, on a substrate 31, an anode 32 acting as a hole injection electrode, a cathode 33 acting as an electron injection electrode, a first and second emission layers 34 and 35 each having a light emission region, and a charge generation layer 38 injecting electrons into the light emission layer 34 lying close to the anode 32 and injecting holes into the light emission layer 35 lying close to the cathode 33, these layers being arranged between the anode 32 and the cathode 33.
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Citations
19 Claims
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1. An organic electroluminescence element comprising, on a substrate:
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an anode which acts as a hole injection electrode; a cathode which acts as an electron injection electrode; a plurality of light emission layers each having a light emission region; and a charge generation layer which injects electrons into a light emission layer arranged close to said anode and holes into a light emission layer arranged close to said cathode, and said light emission layers and said charge generation layer being arranged between said anode and said cathode; wherein the work function of said charge generation layer is configured higher than the ionization potential of said light emission layer arranged close to said anode. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. An organic electroluminescence element comprising, on a substrate:
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an anode which acts as a hole injection electrode; a cathode which acts as an electron injection electrode; a plurality of light emission layers each having a light emission region; and a charge generation layer which injects electrons into a light emission layer arranged close to said anode and holes into a light emission layer arranged close to said cathode, and said light emission layers and said charge generation layer being arranged between said anode and said cathode; wherein the electron affinity of said charge generation layer is configured lower than the electron affinity of the light emission layer arranged close to said anode, and wherein the ionization potential of said charge generation layer is configured higher than the ionization potential of the light emission layer arranged close to said cathode.
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13. An organic electroluminescence element comprising, on a substrate;
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an anode which acts as a hole injection electrode; a cathode which acts as an electron injection electrode; a plurality of light emission layers each having a light emission region; and a charge generation layer which injects electrons into a light emission layer arranged close to said anode and holes into a light emission layer arranged close to said cathode, and said light emission layers and said charge generation layer being arranged between said anode and said cathode, wherein the potential difference between the electron affinity of the light emission layer arranged close to said anode and the electron affinity of said charge generation layer, and the potential difference between the ionization potential of the light emission layer arranged close to said cathode and the ionization potential of said charge generation layer are both configured 0.6 eV or less.
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14. An exposure unit which uses an organic electroluminescence element as a light source, said element comprising, on a substrate:
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an anode which acts as a hole injection electrode; a cathode which acts as an electron injection electrode; a plurality of light emission layers each having a light emission region; a charge generation layer which injects electrons into a light emission layer arranged close to said anode and holes into a light emission layer arranged close to said cathode, and said light emission layers and said charge generation layer being arranged between said anode and said cathode; wherein the unit comprises a waveguide the end plane of which in the sub-scanning direction is configured as the light emerging plane, and the light which emits from said organic electroluminescence element, incident on said waveguide, and emerges from said light emerging plane as the exposure light; wherein said waveguide comprises; a core having a specified refractive index smaller than that of said light emission; and a clad that is formed around the outer periphery of said core and has a refractive index smaller than that of said core.
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15. An exposure unit which uses an organic electroluminescence element as a light source, said element comprising, on a substrate:
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an anode which acts as a hole injection electrode; a cathode which acts as an electron injection electrode; a plurality of light emission layers each having a light emission region; a charge generation layer which injects electrons into a light emission layer arranged close to said anode and holes into a light emission layer arranged close to said cathode, and said light emission layers and said charge generation layer being arranged between said anode and said cathode; wherein the unit comprises a waveguide the end plane of which in the sub-scanning direction is configured as the light emerging plane, and the light which emits from said organic electroluminescence element, incident on said waveguide, and emerges from said light emerging plane as the exposure light; wherein said waveguide comprises; a core having a specified refractive index larger than the value obtained by subtracting 0.3 from the refractive index of said light emission layer; and a clad that is formed around the outer periphery of said core and has a refractive index smaller than that of said core.
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16. An exposure unit which uses an organic electroluminescence element as a light source, said element comprising, on a substrate:
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an anode which acts as a hole injection electrode; a cathode which acts as an electron injection electrode; a plurality of light emission layers each having a light emission region; a charge generation layer which injects electrons into a light emission layer arranged close to said anode and holes into a light emission layer arranged close to said cathode, and said light emission layers and said charge generation layer being arranged between said anode and said cathode; wherein the unit comprises a waveguide the end plane of which in the sub-scanning direction is configured as the light emerging plane, and the light which emits from said organic electroluminescence element, incident on said waveguide, and emerges from said light emerging plane as the exposure light; wherein, in said waveguide, an angle conversion unit is formed at the interface between said core and clad located at the opposite side of said light emission layer that converts the angle of the light impinging on said waveguide from said light emission layer to guide to said light emerging plane.
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17. An exposure unit which uses an organic electroluminescence element as a light source, said element comprising, on a substrate:
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an anode which acts as a hole injection electrode; a cathode which acts as an electron injection electrode; a plurality of light emission layers each having a light emission region; a charge generation layer which injects electrons into a light emission layer arranged close to said anode and holes into a light emission layer arranged close to said cathode, and said light emission layers and said charge generation layer being arranged between said anode and said cathode; wherein the organic electroluminescence element is applied a negative voltage between said anode and said cathode during the period of no light emission.
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18. An organic electroluminescence element comprising, on a substrate;
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an anode which acts as a hole injection electrode; a cathode which acts as an electron injection electrode; a plurality of light emission layers each having a light emission region; and a charge generation layer which injects electrons into a light emission layer arranged close to said anode and holes into a light emission layer arranged close to said cathode, and said light emission layers and said charge generation layer being arranged between said anode and said cathode, wherein the potential difference between the ionization potential of the light emission layer arranged close to said cathode and the ionization potential of said charge generation layer is configured 0.6 eV or less.
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19. An organic electroluminescence element comprising, on a substrate;
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an anode which acts as a hole injection electrode; a cathode which acts as an electron injection electrode; a plurality of light emission layers each having a light emission region; and a charge generation layer which injects electrons into a light emission layer arranged close to said anode and holes into a light emission layer arranged close to said cathode, and said light emission layers and said charge generation layer being arranged between said anode and said cathode, wherein the potential difference between the electron affinity of the light emission layer arranged close to said anode and the electron affinity of said charge generation layer is configured 0.6 eV or less.
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Specification