ENCAPSULATED WHITE OLEDS HAVING ENHANCED OPTICAL OUTPUT
First Claim
1. A method of making an integrated barrier and optical enhancement stack for protecting and improving the light out coupling of encapsulated white OLEDs comprising;
- providing a co-doped white OLED having a transparent electrode;
selecting a plasma protective layer having a refractive index in a range of about 1.1 to about 1.9, the plasma protective layer adjacent to the transparent electrode of the white OLED; and
optimizing a thickness of the plasma protective layer for the white OLED, the thickness being in range of about 20 nm to about 50 nm;
selecting an initial inorganic barrier layer having a refractive index in a range of about 1.55 to about 2, the initial inorganic barrier layer adjacent to a transparent electrode in the white OLED;
optimizing a thickness of the initial inorganic barrier layer for the white OLED, the thickness being in a range of about 40 nm to about 240 nm;
selecting a barrier stack comprising an inorganic barrier layer and a polymeric decoupling layer, the inorganic barrier layer having a refractive index in a range of about 1.55 to about 2, and the polymeric decoupling layer having a refractive index in a range of about 1.4 to about 1.65, the barrier stack adjacent to the initial inorganic barrier layer; and
optimizing a thickness of the inorganic barrier layer and the polymeric decoupling layer of the barrier stack, the thickness of the inorganic barrier layer being in a range of about 20 nm to about 80 nm, and the thickness of the polymeric decoupling layer being in a range of about 0.2 μ
m to about 4 μ
m;
wherein the thickness of at least one of the plasma protective layer, initial inorganic barrier layer, the inorganic barrier layer, or the polymeric decoupling layer are optimized for at least one of total efficiency, or intentional color point shift so that the encapsulated white OLED has enhanced light outcoupling compared to a bare white OLED;
depositing the plasma protective layer having the optimized thickness adjacent to the transparent electrode of the white OLED;
depositing the initial inorganic barrier layer having the optimized thickness adjacent to the plasma protective layer; and
depositing the barrier stack having the optimized thickness for the inorganic barrier layer and the polymeric decoupling layer adjacent to the initial inorganic barrier layer.
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Abstract
Methods of making an integrated barrier stack and optical enhancement layer for protecting and improving the light out coupling of encapsulated white OLEDs are described. The method includes optimizing the thickness of various layers including one or more of the plasma protective layer, the initial organic layer, the initial inorganic barrier layer, and the inorganic barrier layer and polymeric decoupling layer for the barrier stack. The thickness is optimized for at least one of total efficiency, or intentional color point shift so that the encapsulated OLED has enhanced light outcoupling compared to the bare OLED.
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Citations
20 Claims
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1. A method of making an integrated barrier and optical enhancement stack for protecting and improving the light out coupling of encapsulated white OLEDs comprising;
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providing a co-doped white OLED having a transparent electrode; selecting a plasma protective layer having a refractive index in a range of about 1.1 to about 1.9, the plasma protective layer adjacent to the transparent electrode of the white OLED; and optimizing a thickness of the plasma protective layer for the white OLED, the thickness being in range of about 20 nm to about 50 nm; selecting an initial inorganic barrier layer having a refractive index in a range of about 1.55 to about 2, the initial inorganic barrier layer adjacent to a transparent electrode in the white OLED; optimizing a thickness of the initial inorganic barrier layer for the white OLED, the thickness being in a range of about 40 nm to about 240 nm; selecting a barrier stack comprising an inorganic barrier layer and a polymeric decoupling layer, the inorganic barrier layer having a refractive index in a range of about 1.55 to about 2, and the polymeric decoupling layer having a refractive index in a range of about 1.4 to about 1.65, the barrier stack adjacent to the initial inorganic barrier layer; and optimizing a thickness of the inorganic barrier layer and the polymeric decoupling layer of the barrier stack, the thickness of the inorganic barrier layer being in a range of about 20 nm to about 80 nm, and the thickness of the polymeric decoupling layer being in a range of about 0.2 μ
m to about 4 μ
m;wherein the thickness of at least one of the plasma protective layer, initial inorganic barrier layer, the inorganic barrier layer, or the polymeric decoupling layer are optimized for at least one of total efficiency, or intentional color point shift so that the encapsulated white OLED has enhanced light outcoupling compared to a bare white OLED; depositing the plasma protective layer having the optimized thickness adjacent to the transparent electrode of the white OLED; depositing the initial inorganic barrier layer having the optimized thickness adjacent to the plasma protective layer; and depositing the barrier stack having the optimized thickness for the inorganic barrier layer and the polymeric decoupling layer adjacent to the initial inorganic barrier layer. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 17, 18)
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9. A method of making an integrated barrier and optical enhancement stack for protecting and improving the light out coupling of encapsulated white OLEDs comprising;
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providing a vertically stacked white OLED having a transparent electrode; selecting an initial organic layer having a refractive index in a range of about 1.4 to about 1.65, the initial organic layer adjacent to the transparent electrode of the white electrode; and optimizing a thickness of the initial organic layer for the white OLED, the thickness being in range of about 0.2 μ
m to about 1 μ
m;selecting an initial inorganic barrier layer having a refractive index in a range of about 1.55 to about 2, the initial inorganic barrier layer adjacent to a transparent electrode in the white OLED; optimizing a thickness of the initial inorganic barrier layer for the white OLED, the thickness being in a range of about 40 nm to about 240 nm; selecting a barrier stack comprising an inorganic barrier layer and a polymeric decoupling layer, the inorganic barrier layer having a refractive index in a range of about 1.55 to about 2, and the polymeric decoupling layer having a refractive index in a range of about 1.4 to about 1.65, the barrier stack adjacent to the initial inorganic barrier layer; and optimizing a thickness of the inorganic barrier layer and the polymeric decoupling layer of the barrier stack, the thickness of the inorganic barrier layer being in a range of about 20 nm to about 80 nm, and the thickness of the polymeric decoupling layer being in a range of about 0.2 μ
m to about 4 μ
m;wherein the thickness of at least one of the initial organic layer, initial inorganic barrier layer, the inorganic barrier layer, or the polymeric decoupling layer are optimized for at least one of total efficiency, or intentional color point shift so that the encapsulated white OLED has enhanced light outcoupling compared to a bare white OLED; depositing the initial organic layer having the optimized thickness adjacent to the transparent electrode of the white OLED; depositing the initial inorganic barrier layer having the optimized thickness adjacent to the plasma protective layer; and depositing the barrier stack having the optimized thickness for the inorganic barrier layer and the polymeric decoupling layer adjacent to the initial inorganic barrier layer. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 19, 20)
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Specification