Abstract:
복합 기능 센서에 관한 기술이 개시(disclosure)된다. 일 실시 예에 있어서, 복합 기능 센서는 전도성 입자가 내부에 분산되어 있으며 일면에 홈을 포함하는 폴리머 기판, 상기 폴리머 기판의 상기 일면에 서로 이격되어 배치되는 복수의 제1 전극들 및 상기 폴리머 기판의 타면에 서로 이격되어 배치되는 복수의 제2 전극들을 포함한다. 상기 기판은 상기 일면에 상기 홈에 의해 형성되는 돌출부 및 함몰부를 포함하며, 상기 제1 전극들 중 일부는 상기 돌출부에 배치되고, 상기 제1 전극들 중 나머지 일부는 상기 함몰부에 배치된다. 상기 전도성 입자는 상기 복수의 제1 전극들을 대응하는 상기 복수의 제2 전극들과 전기적으로 연결하며, 상기 전도성 입자의 전기적 특성은 상기 폴리머 기판의 변형에 따라 변화한다.
Abstract:
PURPOSE: A vertical thin film transistor is provided to effectively control an electric signal between source-drain by including a dielectric layer between a gate electrode and an active layer. CONSTITUTION: A substrate includes a lower electrode layer(a). An intermediate structure including a first insulating layer pattern, a conductive thin film pattern, and a second insulating layer pattern is formed on the top of the substrate(b). A dielectric layer is formed on the sidewall of the conductive thin film pattern of the intermediate structure(c). An active layer is formed on the top of the substrate using an organic semiconductor compound(d). A top electrode layer is formed on the active layer(e).
Abstract:
The present invention relates to a flexible conduction trace. More particularly, the present invention relates to a method of forming a flexible conduction trace and a flexible conduction trace and a flexible electronic device using the same. According to the embodiment of the present invention, the flexible conduction trace includes a flexible line; conductive particles which are arranged with a pillar type in the flexible line.
Abstract:
PURPOSE: An organic light emitting diode device, a manufacturing method thereof, and an organic light emitting diode display device manufactured by the method are provided to have a variable resistive layer including a polymer layer in which conductive particles are distributed, thereby maintaining a uniform amount of currents inputted to a light emitting device. CONSTITUTION: A first electrode layer(120) comprises a variable resistive layer(122) and a metal electrode layer(124). A second electrode layer(160) faces the first electrode layer. A light emitting layer(140) is interposed between the first and second electrode layers. The variable resistive layer includes a polymer layer in which conductive particles are distributed. The electrical feature of the variable resistive layer is changed by deformation of the polymer layer.
Abstract:
PURPOSE: A flexible wiring structure and a manufacturing method thereof are provided to improve the reliability of the wire by reducing the mechanical stress of the wire regardless of the deformation of a flexible substrate. CONSTITUTION: A wiring structure includes a flexible substrate(100) and a conducive wire(110). The flexible substrate is made of plastic or metal material. The flexible substrate has an uneven structure(101). The conductive wire is patterned on the flexible substrate and is stacked on the surface with the uneven structure of the flexible substrate. The conductive wire is made of one of gold, silver, platinum, copper, nickel, chrome, aluminum, tungsten, titanium and palladium.