Abstract: A service identifying and processing method using a wireless terminal message according to an exemplary embodiment of the present invention includes (a) receiving a wireless terminal message by a first entity which is a mobile device; and (b) expressing, by a first agent which is an information processing application program installed on the first entity, entity information of second entity based on the wireless terminal message and service confirmation information related to service provided by the second entity, through an application screen by the first agent.

Abstract: An organic light emitting diode display includes a display area including a pixel for receiving an emitting signal and emitting light, and first and second emitting signal generators provided on respective sides of the display area. Each of the first and second emitting signal generators includes a plurality of emitting signal stages. Each of the plurality of emitting signal stages are respectively connected to n-numbered pixel rows, and two adjacent emitting signal stages to which the n-numbered adjacent pixel rows are connected are in a same one of the first and second emitting signal generators.

Abstract: An organic light emitting diode display includes a display area including a pixel for receiving an emitting signal and emitting light, and first and second emitting signal generators provided on respective sides of the display area. Each of the first and second emitting signal generators includes a plurality of emitting signal stages. Each of the plurality of emitting signal stages are respectively connected to n-numbered pixel rows, and two adjacent emitting signal stages to which the n-numbered adjacent pixel rows are connected are in a same one of the first and second emitting signal generators.

Abstract: An organic light emitting diode display includes a display area including a pixel for receiving an emitting signal and emitting light, and first and second emitting signal generators provided on respective sides of the display area. Each of the first and second emitting signal generators includes a plurality of emitting signal stages. Each of the plurality of emitting signal stages are respectively connected to n-numbered pixel rows, and two adjacent emitting signal stages to which the n-numbered adjacent pixel rows are connected are in a same one of the first and second emitting signal generators.

Abstract: This invention relates to a bipolar plate for a fuel cell having a controlled structure of carbon materials and a method of manufacturing the same, the method including obtaining a masterbatch by mixing a first carbon material powder having a size ranging from 0.1 to 200 ?m with a polymer resin, forming a masterbatch powder by crushing the masterbatch, preparing a conductive composition by mixing the masterbatch powder with a second carbon material powder having a size ranging from 300 ?m to 1 mm, and manufacturing a bipolar plate by subjecting the conductive composition to compression molding. Thereby, carbon materials in a powder phase having different sizes can be uniformly dispersed via a masterbatch to thus shorten a conductive path, thereby decreasing electrical resistivity, and furthermore, dispersion in the polymer resin can be improved, thereby increasing flexural strength.

Abstract: The present invention relates to a method of manufacturing a multi-structural high-heat-dissipation part having the controlled packing density of a carbon material and to a multi-structural high-heat-dissipation part manufactured thereby, the method including preparing a mixture by mixing a binder pitch with a carbon material including a first carbon material powder and a second carbon material powder having a smaller diameter than the diameter of the first carbon material powder, forming a compact from the mixture using a hot-forming process, and producing a graphitized pitch/carbon material compact by subjecting the compact to graphitization through heat treatment and cooling. Thereby, the packing density of the carbon material can be improved through bimodal distribution using pieces of carbon material having different diameters, thus increasing thermal conductivity in in-plane and through-plane directions and strength.

Abstract: An organic light emitting diode display includes a display area including a pixel for receiving an emitting signal and emitting light, and first and second emitting signal generators provided on respective sides of the display area. Each of the first and second emitting signal generators includes a plurality of emitting signal stages. Each of the plurality of emitting signal stages are respectively connected to n-numbered pixel rows, and two adjacent emitting signal stages to which the n-numbered adjacent pixel rows are connected are in a same one of the first and second emitting signal generators.

Abstract: This invention relates to a bipolar plate for a fuel cell having a controlled structure of carbon materials and a method of manufacturing the same, the method including obtaining a masterbatch by mixing a first carbon material powder having a size ranging from 0.1 to 200 ?m with a polymer resin, forming a masterbatch powder by crushing the masterbatch, preparing a conductive composition by mixing the masterbatch powder with a second carbon material powder having a size ranging from 300 ?m to 1 mm, and manufacturing a bipolar plate by subjecting the conductive composition to compression molding. Thereby, carbon materials in a powder phase having different sizes can be uniformly dispersed via a masterbatch to thus shorten a conductive path, thereby decreasing electrical resistivity, and furthermore, dispersion in the polymer resin can be improved, thereby increasing flexural strength.

Abstract: Disclosed herein is a transparent conductive polycarbonate film coated with carbon nanotubes, including a transparent conductive layer formed by applying a mixed solution of carbon nanotubes and a binder on one side or both sides of a transparent polycarbonate film, and a touch panel using the transparent conductive polycarbonate film as a lower transparent electrode. The present invention provides a transparent conductive polycarbonate film coated with a mixed solution of carbon nanotubes and a binder, by which a touch panel having high transmissivity can be manufactured by directly forming a transparent conductive layer on a polycarbonate film used as a protective film of a liquid crystal display using carbon nanotubes, without using a polyethylene terephthalate (PET) substrate used for a transparent electrode of a conventional touch panel, by which the production cost of the touch panel can be decreased, and by which a thin touch panel can be manufactured.

Abstract: This invention relates to a method of manufacturing a transparent conductive film containing carbon nanotubes and a binder, in which the carbon nanotubes are subjected to acid treatment, dispersion in a solvent, mixing with the binder, and application on the substrate, and to a transparent conductive film manufactured thereby. The method includes subjecting carbon nanotubes having an outer diameter of less than 15 nm to acid treatment to thus purify and surface functionalize them, followed by dispersing the treated carbon nanotubes in a solvent along with the binder, or mixing a carbon nanotube solution using a polar or nonpolar solvent with a binder solution, and applying the mixture on the substrate.

Abstract: Disclosed herein is a transparent conductive polycarbonate film coated with carbon nanotubes, including a transparent conductive layer formed by applying a mixed solution of carbon nanotubes and a binder on one side or both sides of a transparent polycarbonate film, and a touch panel using the transparent conductive polycarbonate film as a lower transparent electrode. The present invention provides a transparent conductive polycarbonate film coated with a mixed solution of carbon nanotubes and a binder, by which a touch panel having high transmissivity can be manufactured by directly forming a transparent conductive layer on a polycarbonate film used as a protective film of a liquid crystal display using carbon nanotubes, without using a polyethylene terephthalate (PET) substrate used for a transparent electrode of a conventional touch panel, by which the production cost of the touch panel can be decreased, and by which a thin touch panel can be manufactured.

Abstract: This invention relates to a method of manufacturing a transparent conductive film containing carbon nanotubes and a binder, in which the carbon nanotubes are subjected to acid treatment, dispersion in a solvent, mixing with the binder, and application on the substrate, and to a transparent conductive film manufactured thereby. The method includes subjecting carbon nanotubes having an outer diameter of less than 15 nm to acid treatment to thus purify and surface functionalize them, followed by dispersing the treated carbon nanotubes in a solvent along with the binder, or mixing a carbon nanotube solution using a polar or nonpolar solvent with a binder solution, and applying the mixture on the substrate.