摘要:
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.
摘要:
The invention provides an improved thin film transistor (TFT) that can be formed at room temperature and has an improved contact resistance between an active layer and source and drain electrodes, and further provides a flat display device using such a TFT. The TFT includes an active layer including at least two nano particle layers which include at least one nano particle type, an insulating layer interposed between the nano particle layers, a gate electrode insulated from the active layer, and source and drain electrodes formed in respective channels, the source and drain electrodes contact one of the nano particle layers of the active layer. The structure of the TFT facilitates the simultaneous manufacturing of a plurality of different types of TFTs.
摘要:
An organic thin film transistor, a flat display device including the same, and a method of manufacturing the organic thin film transistor are disclosed. In one embodiment, the organic thin film transistor includes: i) a substrate, ii) a gate electrode disposed on the substrate, iii) a gate insulation film disposed on the gate electrode, iv) a source electrode and a drain electrode spaced from each other and disposed on the gate insulation film, v) an organic semiconductor layer contacting the source electrode and the drain electrode and having an edge to be distinguished from an adjacent organic thin film transistor, and vi) a cantilever layer disposed to cover the organic semiconductor layer, contacting a portion of a layer which is disposed in or under the organic semiconductor layer, and is exposed to the outside of the edge of the organic semiconductor layer. According to one embodiment, a patterning effect of an organic semiconductor layer is easily obtained and characteristics such as an on/off ratio are improved.
摘要:
Provided are a thin film transistor, a method for preparing the same and a flat panel display employing the same. The thin film transistor includes a gate electrode, source and drain electrodes insulated from the gate electrode, a semiconductor layer insulated from the gate electrode and electrically connected to the source and drain electrodes, an insulating layer, and a carrier blocking layer interposed between the semiconductor layer and the insulating layer and preventing electrons or holes moving through semiconductor layer from being trapped in the insulating layer. Since the thin film transistor is constructed such that the carrier blocking layer is interposed between the semiconductor layer and the insulating layer, the electrons or holes injected into the semiconductor layer can be prevented from being trapped in the insulating layer, thereby suppressing hysteresis characteristic. In addition, a reliable flat panel display device can be manufactured using the thin film transistor.
摘要:
Provided is a method of patterning an organic thin film which can prevent surface damage of an organic semiconductor layer. Also, an organic thin film transistor that can reduce an off-current and can prevent surface damage of the organic semiconductor layer and a method of manufacturing the organic thin film transistor, and an organic electroluminescence display device having the organic thin film transistor are provided. The method of patterning the organic thin film includes forming the organic thin film on a substrate, selectively printing a mask material on a portion of the organic thin film, dry etching an exposed portion of the organic thin film using the mask material, and removing the mask material.
摘要:
Organic TFTs having uniform characteristics and a flat panel display having the organic TFT, wherein the organic TFTs include an organic semiconductor layer formed by spin coating are disclosed. One embodiment of the organic TFT includes: a substrate, a gate electrode disposed on the substrate, a gate insulating film covering the gate electrode, an organic semiconductor layer disposed on the gate insulating film, and a source electrode and a drain electrode that contact the organic semiconductor layer, wherein a plurality of protrusion parts is formed on the gate insulating film and the protrusion parts extend toward the drain electrode from the source electrode.
摘要:
A Thin Film Transistor (TFT) that can reduce leakage current and can prevent crosstalk between adjacent TFTs includes: a substrate; a gate electrode disposed on the substrate; a source electrode and a drain electrode separated from each other and insulated from the gate electrode; and a semiconductor layer which is insulated from the gate electrode, contacts each of the source and drain electrodes, and has grooves that separate at least a region of the semiconductor layer between the source and drain electrodes from the adjacent TFT. Each groove passes at least a portion of the semiconductor layer corresponding to the source and drain electrodes, and a projection image generated when each groove that passes at least a portion of the semiconductor layer corresponding to the source and drain electrodes is projected onto the source and drain electrodes covers the source and drain electrodes except for a portion of the source electrode that faces the drain electrode and a portion of the drain electrode that faces the source electrode.
摘要:
Provided are an organic thin film transistor (TFT), which can prevent deformation or separation due to mechanical stress, and a flat panel display device including the organic TFT. The organic TFT includes a gate electrode; a source electrode and drain electrodes insulated from the gate electrode; an organic semiconductor layer insulated from the gate electrode, and contacting the source electrode and the drain electrodes; and a gate insulating layer insulating the gate electrode from the source electrode, the drain electrode, and the organic semiconductor layer. The gate insulating layer may be patterned in an island shape to permit adjacent portions of the substrate to flex freely, thereby reducing stress and deformation of the organic TFT and its component layers.
摘要:
Provided are a method of manufacturing an organic thin film transistor (TFT), the organic TFT manufactured using the method, and a flat panel display device comprising the organic TFT. The method includes: coating a lubricant on a predetermined region of a substrate where an organic semiconductor layer is not to be formed; coating an organic semiconductor layer on the entire substrate; heating the coated substrate to melt the lubricant; and releasing the organic semiconductor layer formed above the predetermined region from the substrate. According to the method, the organic semiconductor layer can be effectively patterned without damaging the substrate and the organic semiconductor material.
摘要:
Provided is a method of patterning an organic thin film which can prevent surface damage of an organic semiconductor layer. Also, an organic thin film transistor that can reduce an off-current and can prevent surface damage of the organic semiconductor layer and a method of manufacturing the organic thin film transistor, and an organic electroluminescence display device having the organic thin film transistor are provided. The method of patterning the organic thin film includes forming the organic thin film on a substrate, selectively printing a mask material on a portion of the organic thin film, dry etching an exposed portion of the organic thin film using the mask material, and removing the mask material.