Abstract: A substrate processing facility includes a cleaning device for cleaning a substrate; and a drying device for drying the substrate cleaned by the cleaning device with a supercritical gas, wherein the cleaning device includes a sulfuric acid cleaning chamber.

Abstract: A thin film deposition mask assembly and an in-line type thin film deposition apparatus for deposition of an organic material on a substrate, the mask assembly including a carrier, the carrier being configured to mount and carry a substrate; and a mask, the mask being integrally coupled with the carrier, and having an opening for depositing an organic material on the substrate.

Abstract: A donor film tray that supplies a donor film includes: a tray main body disposed in correspondence with an edge of the donor film, and including an opening that exposes a center area of the donor film; and a clamp disposed in an area of the tray main body for clamping the edge of the donor film, and for pulling the edge of the donor film in a direction away from the tray main body using the repulsive force of a magnet.

Abstract: An organic layer deposition apparatus includes a transfer unit; a first conveyer unit including a guide member having accommodation grooves, a first accommodation part, a second accommodation part, and a connection part that connects the first accommodation part to the second accommodation part; a second conveyer unit for moving the transfer unit without the substrate; a loading unit for fixing the substrate on the transfer unit; a deposition unit including a chamber and an organic layer deposition assembly; and an unloading unit for separating the substrate, wherein the first accommodation part of the guide member is located close to ground compared to the second accommodation part, and includes a lower member, an upper member, elastic members located between the lower and upper members. The substrate fixed on the transfer unit is spaced from the organic layer deposition assembly while being transferred by the first conveyer unit.

Abstract: The present invention relates to a conductive polymer composition having high viscosity and high conductivity, and more particularly, to a conductive polymer composition having excellent electrical conductivity and stability by adding a thixotropic agent, which is dissociated in an aqueous solution to generate negative charges, to PEDOT.

Abstract: An organic layer deposition apparatus includes a transfer unit; a first conveyer unit including a guide member having accommodation grooves, a first accommodation part, a second accommodation part, and a connection part that connects the first accommodation part to the second accommodation part; a second conveyer unit for moving the transfer unit without the substrate; a loading unit for fixing the substrate on the transfer unit; a deposition unit including a chamber and an organic layer deposition assembly; and an unloading unit for separating the substrate, wherein the first accommodation part of the guide member is located close to ground compared to the second accommodation part, and includes a lower member, an upper member, elastic members located between the lower and upper members. The substrate fixed on the transfer unit is spaced from the organic layer deposition assembly while being transferred by the first conveyer unit.

Abstract: A donor film tray that supplies a donor film includes: a tray main body disposed in correspondence with an edge of the donor film, and including an opening that exposes a center area of the donor film; and a clamp disposed in an area of the tray main body for clamping the edge of the donor film, and for pulling the edge of the donor film in a direction away from the tray main body using the repulsive force of a magnet.

Abstract: Disclosed herein is a conductive polymer composition including: a conductive polymer doped with PCS (Poly cellulose-sulfonate); and a solvent. The conductive polymer composition is advantageous in that, since PCS (Poly cellulose-sulfonate) is used as a dopant, the crosslink density of a conductive polymer increases, thus improving the electrical conductivity and thermal stability of the conductive polymer composition.

Abstract: Disclosed is a conductive polymer composition including a conductive polymer, a dopant, a solvent, and a thixotropic agent. The conductive polymer composition includes the thixotropic agent in lieu of a binder, so that the viscosity of the conductive polymer composition is high and the electrical conductivity thereof is superior. The thixotropic agent can reversibly change the viscosity by expansion and shrinkage, thus adjusting the viscosity of the conductive polymer composition depending on the end uses.

Abstract: Disclosed herein is a PEDOT/PSS composition, including PEDOT/PSS, a solvent, a compatibilizer and a water-soluble conductive polymer, and a transparent electrode. Since a transparent electrode is formed by adding a compatibilizer and a water-soluble conductive polymer to PEDOT/PSS, the transparent electrode has excellent flexibility, can be easily coated and has a low surface resistance of 240˜300 ?/?, so that this transparent electrode can be used as a transparent electrode for displays.

Abstract: Disclosed is a method of post-treating a conductive film by oxidizing the conductive film using dipping or spraying with an acid solution, so that the band gap of the conductive polymer is decreased, thus increasing the transmittance and electrical conductivity of the conductive film.

Abstract: Disclosed is a method of preparing a conductive polymer composition, in which FTS (Ferric p-toluene sulfonate) is used as a dopant and mixed with a conductive polymer monomer before polymerizing the conductive polymer monomer, thereby facilitating the control of the concentration of the conductive polymer composition and increasing the electrical conductivity of the conductive polymer composition. A method of manufacturing a conductive film is also provided.

Abstract: Disclosed herein are a conductive polymer composition and a conductive film using the same. The conductive polymer composition includes: a conductive polymer; a solvent; and an ionic binder. A transparent parent is formed by adding the ionic binder to the conductive polymer, thereby making it possible to have excellent flexibility and a low sheet resistance of 110?/? to 500?/? and simplify a coating process of the transparent electrode. Accordingly, the transparent electrode of the present invention is suitable for being used as a display device.

Abstract: Disclosed herein is a microcapsule having heat-resistance in a core-shell structure, including: a conductive polymer core; and a shell made of polyimide and partially enclosing the conductive polymer core. The core-shell structure in which a partial polyimide shell is formed on the conductive polymer core is formed, thereby making it possible to improve the heat-resistance of the conductive polymer. In addition, a transparent electrode having improved heat-resistance is used to minimize a change rate in sheet resistance due to a high temperature, such that electrical reliability of a touch panel is improved, thereby making it possible to improve accuracy of an operation.

Abstract: Disclosed herein is a resistive touch screen, including: a lower substrate formed with a lower electrode pattern unit made of a conductive polymer and a lower electrode wiring unit connected to the lower electrode pattern unit; an upper substrate disposed on the upper side of the lower substrate and formed with an upper electrode pattern unit made of a conductive polymer and an upper electrode wiring unit connected to the upper electrode pattern unit, formed on an opposite surface thereto; a spacer disposed between the lower substrate and the upper substrate and provided with an opening formed therein; and a surface modifying layer covering at least any one of the lower electrode pattern unit and the upper electrode pattern unit and made of a material having a work function smaller than the conductive polymer.

Abstract: Disclosed herein is a touch panel. The touch panel includes a transparent substrate and a plurality of transparent electrodes. The transparent electrodes are formed on one surface of the transparent substrate. Each of the transparent electrodes includes a touch part formed to have an identical width and a connection part configured in a stepped form along with the touch part and configured to connect the touch part with the transparent substrate.

Abstract: Disclosed herein is an apparatus for manufacturing a transparent conductive layer. The apparatus includes a transparent substrate, a longitudinal direction of which is arranged in an X axis direction. Jetting means jets a conductive polymer solution, containing ions, onto a first surface of the transparent substrate in a Y axis direction. A wire is spaced apart from a second surface of the transparent substrate by a predetermined distance and arranged in a Z axis direction. Voltage application means generates electric attractive force between the wire and the conductive polymer solution by applying a potential having polarity opposite to that of the ions to the wire. The apparatus adds ions to the conductive polymer solution, and employs a wire to which a potential having polarity opposite to that of the ions is applied, thus obtaining the advantage that the target substrate can be uniformly coated with the conductive polymer solution.

Abstract: Disclosed herein are a transparent conductive film for a touch panel and a method for manufacturing the same. A transparent conductive film 100 for a touch panel according to the present invention includes a transparent substrate 110: a plurality of silver nanowires 120 formed on the transparent substrate 110 to be parallel with each other in one direction; and a transparent electrode 130 formed on the transparent substrate to apply the silver nanowires 120, whereby the silver nanowires 120 are formed in one direction of the transparent electrode 130 having the relatively higher surface resistance to make the surface resistance constant in all directions of the transparent conductive film 100 for the touch panel, thereby making it possible to increase touch sensitivity when a touch panel is manufactured.

Abstract: Disclosed herein is a touch screen panel. The touch screen panel includes a substrate, a plurality of first detection patterns, a plurality of second detection patterns, and a plurality of connection prevention layers. Each of the first detection patterns includes a plurality of first detection cells arranged in a single column and a plurality of first connection lines configured to connect first detection cells which are adjacent to each other. Each of the second detection patterns includes a plurality of second detection cells arranged in a single row and a plurality of second connection lines configured to connect second detection cells which are adjacent to each other. Each of the connection prevention layers is located between each of the first connection lines and each of the second connections line at the intersection thereof, and is made of an electrical insulation material.

Abstract: Disclosed herein are a transparent conductive substrate and a method of manufacturing the same, and a touch screen using the same. The transparent conductive substrate includes a transparent substrate, a transparent electrode that is formed and patterned on the transparent substrate, and a primer that is formed between the transparent substrate and the transparent electrode and is patterned to have a pattern corresponding to the transparent electrode. The transparent electrode is easily patterned by previously patterning the primer to correspond to the transparent electrode and residues do not remain on the transparent substrate.