摘要:
Disclosed is a method of forming a pattern by means of coatings containing an ionic component having a positive or negative electric charge using electrostatic attraction force and/or repulsion force. In the method, it is possible to significantly improve precision and efficiency of the pattern formation.
摘要:
The invention provides a method for patterning coatings which includes the steps of: a) applying coatings onto a flat plate; b) allowing the coatings applied to the flat plate to contact with protrusions of a substrate so as to transfer portions of the coatings on the flat plate which contact with the protrusions of the substrate to the protrusions of the substrate from the flat plate, the substrate having unevenness formed with the protrusions and grooves; and c) allowing the coatings remaining on the flat plate or on the protrusions of the substrate to contact with a print surface of a print object so as to transfer the coatings to the print object. The method has simple processes, and ensures high precision and high speed in patterning functional materials, preferalby, electronic materials.
摘要:
A flexible EL device comprises a substrate, which is made of highly polymerized synthetic rubber, polyurethane, or silicon rubber, a conductive layer, a dielectric layer, a fluorescent layer, a transparent conductive layer, and a polymer protection film layer. Due to the high flexibility of the substrate, the flexibility of the flexible EL device according to the present invention is higher than the conventional EL device using PET, and therefore, the durability of the flexible EL device under mechanical impact is improved. As a result, the flexible EL device is not damaged when physical impacts are applied to the flexible EL device. Furthermore, noise is prevented or reduced by simply changing the structure of the flexible EL device and adding material layers, and therefore, electric and physical properties of the flexible EL device are improved. The flexible EL device is applicable to EL dome sheets or EL keypads.
摘要:
Disclosed are green sheets that can be used to shorten the fabrication procedure of plasma display panels and to improve the configuration and crystalline state of electrodes. The green sheets for use in the fabrication of display panels comprise a dielectric layer green sheet to which a plurality of electrode materials are bound at regular intervals, and at least one protective film attached to at least one surface of the dielectric layer green sheet. Further disclosed are a method and an apparatus for producing the green sheets, plasma display panels using the green sheets, and methods fabricating the plasma display panels.
摘要:
Disclosed herein is an organic electroluminescent polymer having 9,9-di(fluorenyl)-2,7-fluorenyl unit and an electroluminescent device using the same. Specifically, the current invention provides an organic electroluminescent polymer having 9,9-di(fluorenyl)-2,7-fluorenyl unit, which can be used as a blue electroluminescent polymer and host material by introducing the substituted fluorenyl group at the 9-position of fluorene, and an electroluminescent device using the electroluminescent polymer. The electroluminescent polymer is applicable as a host material for highly pure blue, green and red, having high solubility, high heat stability and high quantum efficiency.
摘要:
An apparatus and method for allocating a bandwidth for up-stream data transmission to a plurality of Optical Network Units (ONUs) in an Ethernet Passive Optical Access Network (EPON) in which the ONUs are connected to a single Optical Line Terminal (OLT) are disclosed. The bandwidth allocation method for guaranteeing a Quality of Service (QoS) in the EPON includes the steps of: a) classifying up-stream data to be transmitted from a plurality of Optical Network Units (ONUs) of the EPON to an Optical Line Terminal (OLT) into a plurality of classes according to predetermined data priority information, and requesting bandwidths required for individual classes from the OLT; b) allowing the OLT to perform a bandwidth distribution process according to bandwidth requirement quantities of individual classes using weights pre-assigned to individual classes; and c) allowing the OLT to distribute a residual bandwidth acquired after the bandwidth distribution process is performed from among an available total up-stream bandwidth to the ONUs.
摘要:
A master mold for an offset process is disclosed which enables formation of electrodes with a complex pattern or a very-fine pattern. A pattern formation method using the master mold is also disclosed. The master mold includes a plate having a predetermined thickness, and an intaglio pattern formed in a surface of the plate. The intaglio pattern has a cross-section having a surface inclined in a transfer direction of a material to be transferred.
摘要:
A method for manufacturing a plasma display panel, which improves the contrast of the plasma display panel, reduces the production costs of the plasma display panel, and simplifies a process for manufacturing the plasma display panel. The method includes forming a barrier rib material on a lower plate, on which address electrodes and a dielectric are provided; forming a black top material having photosensitivity on the barrier rib material; and forming barrier ribs and black tops by treating the barrier rib material and the black top material.
摘要:
A method for manufacturing an LCD device includes preparing first and second substrates and dispensing liquid crystal on the first substrate. A plurality of column spacers are formed on the second substrate, and a seal pattern is formed on the second substrate. The second substrate is inversed and the first and second substrates are bonded to each other to form an LCD panel having a first height (h1) corresponding to a cell gap between the first and second substrates. Pressure is applied to the rear surfaces of the first or second substrates so as to change the cell gap to a second height (h2) smaller than the first height (h2
摘要:
A liquid crystal display device is provided. The liquid crystal display device includes a gate line and a data line formed on a substrate; a thin film transistor formed at an intersection of the gate line and the data line; a pixel electrode connected to the thin film transistor; a common electrode substantially parallel to the pixel electrode; and a conductive pattern in contact with the common electrode at a lateral side surface of the common electrode.