Abstract: An organic light-emitting diode display is provided. The organic light-emitting diode display has an anode layer, an organic layer disposed on the anode layer, and a cathode layer disposed on the organic layer and comprising a plurality of cathode lines. The organic light-emitting diode display comprises a plurality of pixel columns corresponding to the cathode lines. Pixels in the same pixel column have the same color, and the cathode lines corresponding to the pixel columns having different colors are inputted with different cathode voltages, respectively.

Abstract: A manufacturing method for OLED display panel is disclosed, which first performs patterning on the encapsulation colloid of the encapsulant to divide encapsulation colloid into a plurality of target encapsulation areas, with each target encapsulation area corresponding to each OLED substrate unit, and a gap area outside of target encapsulation areas, performing disintegration treatment from the other side of encapsulation colloid on a portion of encapsulation colloid belonging to gap area so that the surface losing adhesiveness, then attaches encapsulation colloid to OLED substrate, and finally, obtains a plurality of OLED display panels by cutting. This method is simple to perform, reduces the size compatibility requirement of the laminator and avoids the use of extra manipulator and carrier fixture, which reduces the product cost incurred by fixture cleaning, transport, storage and other complex operations, and improves the product of the alignment accuracy, is good for automated production.

Abstract: A thin-film package structure and an OLED component are disclosed. The present disclosure aims to solve the technical problem of a low light-emitting efficiency of an OLED display device and a poor package effect in the prior art. The thin-film package structure includes at least two organic material film layers, and at least two inorganic material film layers. An organic material film layer and an inorganic material film layer are arranged in an alternate manner. The inorganic material film layer includes a magnetic material film layer and a non-magnetic material film layer. The OLED component packaged by the thin-film package structure includes a substrate, and an OLED component that is formed on the substrate. A magnetic field generated by the magnetic material in the thin-film layers can act on the OLED, and thus a light-emitting efficiency of the OLED display device can be improved.

Abstract: A manufacturing method for OLED display panel is disclosed, which first performs patterning on the encapsulation colloid of the encapsulant to divide encapsulation colloid into a plurality of target encapsulation areas, with each target encapsulation area corresponding to each OLED substrate unit, and a gap area outside of target encapsulation areas, performing disintegration treatment from the other side of encapsulation colloid on a portion of encapsulation colloid belonging to gap area so that the surface losing adhesiveness, then attaches encapsulation colloid to OLED substrate, and finally, obtains a plurality of OLED display panels by cutting. This method is simple to perform, reduces the size compatibility requirement of the laminator and avoids the use of extra manipulator and carrier fixture, which reduces the product cost incurred by fixture cleaning, transport, storage and other complex operations, and improves the product of the alignment accuracy, is good for automated production.

Abstract: The present invention provides a groove structure employed for printing film formation, wherein the groove structure is located on a substrate, comprises a dam and a groove formed by the dam surrounding, and the dam comprises at least two layers of branch dam layers, which are stacked up, and material of the branch dam layers is silicon nitride or silicon oxide, and material of a top side branch dam layer is silicon oxide, wherein the inclined circumferential surface of the groove, which is surrounded by the branch dam layer manufactured with silicon oxide and the upper surface of the top side branch dam layer are hydrophobic surfaces, and an inclined circumferential surface of the groove, which is surrounded by the branch dam layer manufactured with silicon nitride, is a hydrophilic surface.

Abstract: An organic light-emitting diode display is provided. The organic light-emitting diode display has an anode layer, an organic layer disposed on the anode layer, and a cathode layer disposed on the organic layer and comprising a plurality of cathode lines. The organic light-emitting diode display comprises a plurality of pixel columns corresponding to the cathode lines. Pixels in the same pixel column have the same color, and the cathode lines corresponding to the pixel columns having different colors are inputted with different cathode voltages, respectively.

Abstract: An organic light emitting diode (OLED) display panel and a method for manufacturing the OLED display panel are provided. The OLED display panel includes a first electrode layer, a second insulating layer, and an auxiliary electrode layer. The first electrode layer includes a plurality of first electrodes. The second electrode layer includes a plurality of second electrodes. The first electrodes and the second electrodes are aligned with each other. The auxiliary electrode layer includes rows of auxiliary electrode, each row of the auxiliary electrodes is corresponding to and electrically connected with a row of the second electrodes.

Abstract: The invention provides a manufacturing method for flexible OLED, using a magnetic substrate as the carrier substrate to magnetically attract the flexible magnetic thin film to be fixed, and then forming a polymer thin film on the flexible magnetic film, forming an OLED device on the polymer thin film, and then encapsulating the OLED device to complete manufacturing the flexible OLED. The method is simple, and achieves lossless separation between the flexible magnetic thin film and the magnetic substrates by degaussing the magnetic substrate. Moreover, the flexible magnetic thin film is preferably a metal thin film able to cut off moisture to improve the stability of OLED devices, and by encapsulating OLED device to further enhance the reliability of the OLED device performance. The flexible OLED of the invention is easy to manufacture and achieves excellent performance.

Abstract: The present invention provides a package method of an OLED substrate and an OLED package structure. In the package method, by manufacturing the passivation layer with two layers in the process of manufacturing the OLED substrate, and the first layer is a regular silicon oxide layer, and the second layer is a silicon oxynitride layer, and the silicon oxynitride layer directly contacts with the seal, and the adhesion of the seal and the silicon oxynitride layer is stronger to promote the adhesion result of the seal and the OLED substrate for achieving the result of raising the seal package performance. In the OLED package structure of the present invention, similarly, the property of stronger adhesion of the seal and the silicon oxynitride layer is utilized to promote the adhesion result of the seal and the OLED substrate for achieving the result of raising the seal package performance.

Abstract: The present invention provides a groove structure employed for printing film formation, wherein the groove structure is located on a substrate (1), and comprises a dam (2) and a groove (3) formed by the dam (2) surrounding, and the dam (2) comprises at least two layers of branch dam layers (21), which are stacked up, and material of the branch dam layers (21) is silicon nitride or silicon oxide, and material of a top side branch dam layer (21) is silicon oxide, wherein the inclined circumferential surface of the groove, which is surrounded by the branch dam layer (21) manufactured with silicon oxide and the upper surface of the top side branch dam layer (21) are hydrophobic surfaces, and an inclined circumferential surface of the groove, which is surrounded by the branch dam layer (21) manufactured with silicon nitride, is a hydrophilic surface.

Abstract: A thin-film package structure and an OLED component are disclosed. The present disclosure aims to solve the technical problem of a low light-emitting efficiency of an OLED display device and a poor package effect in the prior art. The thin-film package structure includes at least two organic material film layers, and at least two inorganic material film layers. An organic material film layer and an inorganic material film layer are arranged in an alternate manner. The inorganic material film layer includes a magnetic material film layer and a non-magnetic material film layer. The OLED component packaged by the thin-film package structure includes a substrate, and an OLED component that is formed on the substrate. A magnetic field generated by the magnetic material in the thin-film layers can act on the OLED, and thus a light-emitting efficiency of the OLED display device can be improved.

Abstract: The present invention provides a package method of an OLED substrate and an OLED package structure. In the package method, by manufacturing the passivation layer with two layers in the process of manufacturing the OLED substrate, and the first layer is a regular silicon oxide layer, and the second layer is a silicon oxynitride layer, and the silicon oxynitride layer directly contacts with the seal, and the adhesion of the seal and the silicon oxynitride layer is stronger to promote the adhesion result of the seal and the OLED substrate for achieving the result of raising the seal package performance. In the OLED package structure of the present invention, similarly, the property of stronger adhesion of the seal and the silicon oxynitride layer is utilized to promote the adhesion result of the seal and the OLED substrate for achieving the result of raising the seal package performance.

Abstract: A thin-film packaging method and an organic light-emitting device are provided. The method includes following steps: forming an OLED layer on a TFT substrate, forming a first inorganic packaging layer on the OLED layer, forming a coupling agent unit on the first inorganic packaging layer, and forming an organic packaging layer on the coupling agent unit. Wherein, the organic packaging layer includes a buffer sublayer and a resist sublayer sequentially formed. The coupling agent unit generates chemical reactions with the first inorganic packaging layer and the buffer sublayer in order to increase an adhesive strength between the first inorganic packaging layer and the organic packaging layer so that they are not easily to be separated, and have a good water and oxygen insulation property.

Abstract: The present invention provides an OLED touch control display device and a manufacture method thereof.

Abstract: A manufacturing method of flexible display panels, a flexible glass substrate, and a flexible display panel are disclosed. The manufacturing method of the flexible display panel includes: forming a TFT layer at one side of a flexible glass substrate; forming a polymer enhanced layer at the other side of the flexible glass substrate; curing the polymer enhanced layer; forming a display layer on the TFT layer; and forming an encapsulation layer on the side of the flexible glass substrate where the TFT layer is located. With such configuration, the compressive strength of the flexible glass substrate is enhanced so as to enhance the quality of products.

Abstract: A thin-film packaging method and an organic light-emitting device are provided. The method includes following steps: forming an OLED layer on a TFT substrate, forming a first inorganic packaging layer on the OLED layer, forming a coupling agent unit on the first inorganic packaging layer, and forming an organic packaging layer on the coupling agent unit. Wherein, the organic packaging layer includes a buffer sublayer and a resist sublayer sequentially formed. The coupling agent unit generates chemical reactions with the first inorganic packaging layer and the buffer sublayer in order to increase an adhesive strength between the first inorganic packaging layer and the organic packaging layer so that they are not easily to be separated, and have a good water and oxygen insulation property.

Abstract: An air supply system for a whole vehicle, which is intended to solve the technical problem that it is hard to provide a multi-position and controllable air supply solution for an electric vehicle. A first air source device, a control valve and a pipeline constitute a first-type air supply system, the first-type air supply system has multiple air passages, each air passage is respectively provided with an air supply port, and a controller can switch operating states of the control valve, control the opening or closing of the multiple air passages, and achieve controllable air supply effects in multiple positions.

Abstract: The invention provides an encapsulation method of OLED and a structure of OLED, and the method comprises: step 1: providing a glass cover and an encapsulating substrate, and the glass cover comprising a display area and an edge area surrounding the display area; step 2: forming a layer of SiNx on the edge area of the glass cover; step 3: self-arranging a layer of hydrophobic monomer on the display area surface of the glass cover; step 4: coating a circle of glue frame around the display area on the glass cover; step 5: coating desiccant on the layer of hydrophobic monomer on the display area of the glass cover; step 6: attaching the glass cover correspondingly to the substrate in vacuum environment; step 7: illuminating by UV light to cure the glue frame to achieve the glass cover encapsulating the substrate.

Abstract: The present invention provides an OLED package method and an OLED package structure. The method comprises steps of: step 1, providing a package cover plate (1), and a substrate (5), and the package cover plate (1) is formed with a spreading location (8) for spreading sealant (2); step 2, manufacturing a seal ring (7 or 7?) on the package cover plate (1) outside the spreading location (8); step 3, spreading the sealant (1) in a round on the spreading location (8) of the package cover plate (1); step 4, oppositely attaching the package cover plate (1) and the substrate (5); step 5, employing an UV light source to irradiate and curing the sealant (2) to accomplish the package to the substrate (5) with the package cover plate (1).

Abstract: The present invention provides an OLED package structure and a package method thereof, and the structure comprises a package cover plate, a substrate, oppositely positioned with the package cover plate, an OLED element, positioned between the package cover plate and the substrate and set on the substrate, a metal oxide layer, formed on a surface of the OLED element, seal, positioned at periphery of the OLED element to bond the package cover plate and the substrate, dryer filler, filling an internal space surrounded by the seal between the package cover plate and the substrate, and covering the OLED element and frit glass, located at periphery of the seal to bond the package cover plate and the substrate, and the structure utilizes the seal and the frit glass to implement the package, and meanwhile, the dryer filler is filled inside the seal to make the package structure possess well tightness and mechanical strength, and a metal oxide layer is formed on a surface of the OLED element inside to prevent the issu