摘要:
Disclosed is an organic EL display panel which has: a substrate; two or more pixel electrodes arranged on the substrate; a bus electrode, which is positioned beside at least one pixel electrode and is disposed on the substrate; an organic layer which is formed on the pixel electrode by means of a coating method; two or more banks, which are disposed on the substrate and define the arrangement region of the organic layer; and a counter electrode, which is disposed on the organic layer and is connected to the bus electrode. The two or more banks include a bank disposed between the bus electrode and the pixel electrode, and a bank disposed between the pixel electrodes, and the lyophilicity of the surface of the bank disposed between the bus electrode and the pixel electrode is lower than that of the bank disposed between the pixel electrodes.
摘要:
The present invention provides an organic EL display panel, which has excellent display qualities with no luminance unevenness and emission color unevenness. The present invention provides the organic EL display panel, which has: a TFT panel having an effective light emitting region (L), which is positioned at a center portion, and a dummy region (D), which is positioned at an outer circumferential portion so as to surround the effective light emitting region (L); a plurality of light emitting elements, which are disposed in the effective light emitting region (L); and a plurality of non-light emitting elements, which are disposed in the dummy region (D). A non-light emitting element among the non-light emitting elements, said non-light emitting element being adjacent to the effective light emitting region (L), also has a dummy hole that is provided in the TFT panel.
摘要:
Disclosed is an organic EL device which comprises: a pixel electrode that is arranged on a substrate; a hole injection layer that is arranged on the pixel electrode and has a photocatalytic function; an organic functional layer that is formed on the hole injection layer by a coating method; a bank made of a fluorine-containing resin and defines the region where the organic functional layer is arranged; and a counter electrode that is arranged so as to cover the bank and the organic functional layer. Due to the photocatalytic function of the hole injection layer, the bank residuals can be removed by low-energy ultraviolet light that has a longer wavelength (300-400 nm) than conventional high-energy ultraviolet light that has a short wavelength (254 nm or 172 nm).
摘要:
Disclosed is a method for manufacturing an organic EL device which comprises a hole injection layer having a flat surface that is not contaminated. Specifically disclosed method for manufacturing an organic EL device, which comprises a step of forming an anode on a substrate; a step of forming a hole injection layer on the anode; a step of forming an inorganic film on the substrate and the hole injection layer; a step of forming a bank on the inorganic film in such a manner that at least a part of the inorganic film formed on the hole injection layer is exposed; a step of etching the exposed inorganic film by using the bank as a mask so that the hole injection layer is exposed therefrom; and a step of forming an organic light-emitting layer by applying an organic light-emitting material onto the exposed hole injection layer. The hole injection layer contains tungsten oxide or molybdenum oxide.
摘要:
An organic EL display panel having a functional layer with a uniform film thickness is provided. The organic EL display panel of the present invention contains an anode electrode set on a substrate; line-state banks set on the substrate on which the anode electrode is set and defining a line-state region; a hole transport layers arranged in matrix state on the substrate, the hole transport layer being set in the line-state region; a line-state interlayer set in the line-state region; a line-state organic EL layer set in the line-state region; and a cathode electrode provided on the organic EL layer, and the bank contains a fluorine resin.
摘要:
A problem of the present invention is to prevent a base layer beneath the layer to be irradiated with light from deterioration in property and a functional thin film from deterioration in property as the fine patterning of a functional film is performed with light irradiation. Means for solving the problem is a compound obtained by dimerizing with light irradiation a compound (A) containing a group that has photosensitivity and can be photodimerized and a group having lyophilicity and a compound (B) containing a group that has photosensitivity and can be photodimerized and a group having liquid-repellency.
摘要:
The present invention provides an organic EL display panel, which has excellent display qualities with no luminance unevenness and emission color unevenness. The present invention provides the organic EL display panel, which has: a TFT panel having an effective light emitting region (L), which is positioned at a center portion, and a dummy region (D), which is positioned at an outer circumferential portion so as to surround the effective light emitting region (L); a plurality of light emitting elements, which are disposed in the effective light emitting region (L); and a plurality of non-light emitting elements, which are disposed in the dummy region (D). A non-light emitting element among the non-light emitting elements, said non-light emitting element being adjacent to the effective light emitting region (L), also has a dummy hole that is provided in the TFT panel.
摘要:
The present invention provides an organic EL display panel such that, even when a light emitting layer is formed in a line bank, generation of brightness unevenness and emission color unevenness due to application unevenness of an organic light emitting layer is suppressed, and good display quality is achieved. In the present invention, an insulation layer, which would cause application unevenness of the organic light emitting layer, is formed on the organic light emitting layer so as to cover an edge of a pixel electrode. It is possible to suppress film-shape unevenness of the organic light emitting layer, whereby provision and manufacture of an organic EL display panel which exhibits excellent display quality with reduced brightness unevenness and emission color unevenness become possible.
摘要:
The present invention provides an organic EL display panel such that, even when a light emitting layer is formed in a line bank, generation of brightness unevenness and emission color unevenness due to application unevenness of an organic light emitting layer is suppressed, and good display quality is achieved. In the present invention, an insulation layer, which would cause application unevenness of the organic light emitting layer, is formed on the organic light emitting layer so as to cover an edge of a pixel electrode. It is possible to suppress film-shape unevenness of the organic light emitting layer, whereby provision and manufacture of an organic EL display panel which exhibits excellent display quality with reduced brightness unevenness and emission color unevenness become possible.
摘要:
Disclosed is a coated type organic EL display wherein the light extraction efficiencies of all organic light-emitting elements are improved even when the organic light-emitting elements have different organic light-emitting layers for respective emission colors. Specifically disclosed is an organic EL display which comprises a substrate, a red organic light-emitting element (R), a green organic light-emitting element (G), and a blue organic light-emitting element (B), said organic light-emitting elements being arranged on the substrate. Each of the organic light-emitting elements has a pixel electrode that is a reflective electrode, a functional layer that is formed on the pixel electrode by coating, an organic light-emitting layer that is arranged on the functional layer, a counter electrode that is a transparent electrode arranged on the organic light-emitting layer, and a tapered bank that defines the functional layer formed by coating. The amounts of the functional layers formed by coating are different among the element (R), the element (G) and the element (B), and the tapered angles of the banks defining the functional layers are different among the element (R), the element (G) and the element (B).