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:
An EL device with low manufacturing costs and improved yield due to simplified structure and use of an organic light emitting transistor and a method of manufacturing the same are disclosed. The EL device includes: a first organic light emitting transistor including a first source electrode; a first drain electrode opposing the first source electrode; a first intermediate layer including at least an emission layer formed between the first source electrode and the first drain electrode; and a first gate electrode which is insulated from the first source electrode, the first drain electrode, and the first intermediate layer and surrounds the first intermediate layer; and a second organic light emitting transistor including a second source electrode; a second drain electrode opposing the second source electrode; a second intermediate layer including at least an emission layer formed between the second source electrode and the second drain electrode; and a second gate electrode which is insulated from the second source electrode, the second drain electrode, and the second intermediate layer, surrounds the second intermediate layer, and is connected to the first drain electrode.
摘要:
A thin film transistor that does not deform or exfoliate due to thermal or mechanical stress, a flat panel display having the same, and a method manufacturing the same, the thin film transistor including a substrate, a patterned buffer layer disposed on the substrate, a patterned active layer disposed on the buffer layer, a gate electrode insulated from the active layer, and a source electrode and a drain electrode that contact the active layer and are insulated from the gate electrode.
摘要:
A Thin Film Transistor (TFT) includes: a gate electrode; a source electrode and a drain electrode each insulated from the gate electrode; and an organic semiconductor layer adapted to contact each of the source and drain electrodes, the organic semiconductor layer being insulated from the gate electrode; wherein the organic semiconductor layer includes a boundary region having a smaller grain size than other portions of the organic semiconductor layer, the boundary region being arranged around at least a channel region and a source and drain region of the organic semiconductor layer.
摘要:
A thin film transistor that does not deform or exfoliate due to thermal or mechanical stress, a flat panel display having the same, and a method manufacturing the same, the thin film transistor including a substrate, a patterned buffer layer disposed on the substrate, a patterned active layer disposed on the buffer layer, a gate electrode insulated from the active layer, and a source electrode and a drain electrode that contact the active layer and are insulated from the gate electrode.
摘要:
A thin film transistor having a transformed region that provides the same result as patterning a semiconductor layer, a flat panel display having the thin film transistor and a method for manufacturing the thin film transistor and the flat panel display are disclosed. The thin film structure includes a gate electrode, a source and a drain electrode, each insulated from the gate electrode and an organic semiconductor layer coupled to the source electrode and the drain electrode. The organic semiconductor layer includes the transformed region having a crystal structure distinguished from crystal structures of regions around the channel region.
摘要:
A flexible flat panel display where nanoparticles are used for the active layer of the TFTs and the substrate is flexible and can be manufactured at room temperature, a flat panel display device having the same, a method of manufacturing a TFT, a method of manufacturing a flat panel display device, and a method of manufacturing a donor sheet. In making the TFTs in the display, a donor sheet is used to transfer the nanoparticles from the sheet to the substrate. The thin film transistor is placed on a substrate and includes a channel region which has at least one P-type or N-type nanoparticle arranged in a lengthwise direction, wherein the lengthwise direction of the P-type or N-type nanoparticles is parallel to a P-type or an N-type nanoparticle line partitioned off on the substrate.
摘要:
A flexible flat panel display where nanoparticles are used for an active layer and the substrate is a flexible plastic, a method of manufacturing the same, a method of manufacturing a thin film transistor (TFT) using the donor sheet, and a method of manufacturing a flat panel display device using the donor sheet. In making the TFTs in the display, a donor sheet is used to transfer the nanoparticles from the sheet to the substrate. The donor sheet can be manufactured at room temperature. The donor sheet has a base film, and a transfer layer being disposed at one side of the base film and transferable, wherein the transfer layer has a plurality of nanoparticles which are arranged to be approximately parallel to one another.
摘要:
A flexible flat panel display where nanoparticles are used for the active layer of the TFTs and the substrate is flexible and can be manufactured at room temperature, a flat panel display device having the same, a method of manufacturing a TFT, a method of manufacturing a flat panel display device, and a method of manufacturing a donor sheet. In making the TFTs in the display, a donor sheet is used to transfer the nanoparticles from the sheet to the substrate. The thin film transistor is placed on a substrate and includes a channel region which has at least one P-type or N-type nanoparticle arranged in a lengthwise direction, wherein the lengthwise direction of the P-type or N-type nanoparticles is parallel to a P-type or an N-type nanoparticle line partitioned off on the substrate.
摘要:
An EL device with low manufacturing costs and improved yield due to simplified structure and use of an organic light emitting transistor and a method of manufacturing the same are disclosed. The EL device includes: a first organic light emitting transistor including a first source electrode; a first drain electrode opposing the first source electrode; a first intermediate layer including at least an emission layer formed between the first source electrode and the first drain electrode; and a first gate electrode which is insulated from the first source electrode, the first drain electrode, and the first intermediate layer and surrounds the first intermediate layer; and a second organic light emitting transistor including a second source electrode; a second drain electrode opposing the second source electrode; a second intermediate layer including at least an emission layer formed between the second source electrode and the second drain electrode; and a second gate electrode which is insulated from the second source electrode, the second drain electrode, and the second intermediate layer, surrounds the second intermediate layer, and is connected to the first drain electrode.