Abstract: An active matrix circuit substrate including data lines, select lines, and pixel circuits electrically coupled with a data line and two adjacent select lines. The pixel circuits include a thin film transistor having a gate electrode coupled with one of the two adjacent select lines and a storage capacitor having a second electrode coupled with the other select line adjacent to the select line to which the gate electrode is coupled. The gate electrode of a first pixel circuit and the second electrode of the storage capacitor of the adjacent pixel circuit are the same structure having a line shape.

Abstract: A modular direct methanol fuel cell system includes a housing having a pump for supplying fuel from a fuel tank to a fuel cell stack and a system controller for electronically controlling the modular direct methanol fuel cell system. An integrated processor is contained in the housing, the integrated processor integrating a water condenser and a gas/liquid stream separator. A first fluid connection unit is between the fuel cell stack and the integrated processor for feeding air and fuel exiting from the fuel cell stack to the integrated processor. A second fluid connection unit is between the fuel cell stack and the integrated processor for feeding a fuel mixture from the integrated processor to the fuel cell stack. The direct methanol fuel cell system also includes a third fluid connection unit for feeding pure fuel from the fuel tank to the integrated processor.

Abstract: A carbon dioxide separation system for a fuel cell system having a small volume and weight of a separation device and of a membrane, at simultaneous increase of the separated volume of carbon dioxide, comprises a separation device for containing a fluid phase, a carbon dioxide phase, and a two phase fluid including fluid and carbon dioxide. The separation device comprises a two phase fluid inlet, a fluid outlet, a carbon dioxide outlet, a carbon dioxide separation membrane, and a flow restrictor creating a backpressure which presses separated carbon dioxide through the carbon dioxide separation membrane. The flow restrictor comprises at least one narrow aperture, and is mounted downstream of the separation device. The carbon dioxide separation membrane is positioned in the separation device in such a manner that at least a part of the total membrane area is arranged above a two phase fluid level and is in touch with carbon dioxide contained in the separation device above the two phase fluid level.

Abstract: A method of forming a conductive pattern in which the conductive pattern can be easily formed at a low temperature without a photolithography process by forming the conductive pattern using a laser ablation method and an inkjet method, an organic thin film transistor manufactured using the method, and a method of manufacturing the organic thin film transistor. The method of forming a conductive pattern in a flat panel display device includes preparing a base member, forming a groove having the same shape as the conductive pattern in the base member, and forming the conductive pattern by applying a conductive material into the groove. The base member has one of a structure including a plastic substrate having the groove and a structure including a substrate and an insulating layer which is arranged on the substrate and which has the groove.

Abstract: A modular direct methanol fuel cell system includes a housing having a pump for supplying fuel from a fuel tank to a fuel cell stack and a system controller for electronically controlling the modular direct methanol fuel cell system. An integrated processor is contained in the housing, the integrated processor integrating a water condenser and a gas/liquid stream separator. A first fluid connection unit is between the fuel cell stack and the integrated processor for feeding air and fuel exiting from the fuel cell stack to the integrated processor. A second fluid connection unit is between the fuel cell stack and the integrated processor for feeding a fuel mixture from the integrated processor to the fuel cell stack. The direct methanol fuel cell system also includes a third fluid connection unit for feeding pure fuel from the fuel tank to the integrated processor.

Abstract: An organic light emitting display device has thin film transistors. An organic thin film transistor (OTFT) is manufactured in one substrate and an organic light emitting diode (OLED) is manufactured on the other substrate, and the first substrate and second substrate are then positioned to face each other. The first substrate and the second substrate are electrically coupled together by contacts positioned on the first substrate, the second substrate, or both. OTFT is manufactured using a dispenser or ink jet printing method, reducing manufacturing time and costs.

Abstract: A device which can mix and store fuel and water, which is orientation independent and which has a small volume. The device includes: at least one inlet for fuel and/or water; and at least one outlet for a mixture of fuel and water, wherein the at least one inlet and the at least one outlet are connected to a flexible chamber in which fluids are mixed and temporarily stored.

Abstract: A flat panel display and a method of manufacturing the same, which allows the formation of an organic film by inkjet printing while avoiding overflow of ink into adjacent areas, thus increasing the uniformity of thickness of the organic film and decreasing manufacturing costs. The flat panel display includes a substrate, a first electrode layer formed on the substrate, ink with material for a light emission layer formed on an active area of the first electrode layer, a repellant area formed of organic material located around the active area, and a border area also formed of organic material located between the active area and the repellant area. A surface energy of the border area is higher than a surface energy of the repellant area.

Abstract: An organic thin film transistor with circular semiconducting elements applied to the substrate in a plurality of hexagonal patterns, a method of producing the same, and a shadow mask used in the method that allows for formation of the organic thin film transistor without need for precise alignment of the shadow mask on the substrate. The substrate has a plurality of thin film transistors, each having a drain electrode, a source electrode, a gate electrode, and a channel formed of semiconducting elements that, due to relative dimensions and alignments of the semiconducting elements, may connect both the drain electrode and the source electrode of one transistor but not two electrodes of adjacent transistors. The shadow mask includes openings in the hexagonal pattern, and the pattern is rotated at an angle of 15° relative to longitudinal axes of the drain and source electrodes to form channels.