摘要:
An organic thin film transistor (“TFT”) array panel includes a substrate, a gate line extending in a first direction, a data line extending in a second direction, intersecting with and insulated from the gate line, a source electrode connected to the data line, a drain electrode facing the source electrode, a pixel electrode connected to the drain electrode, and an organic semiconductor connected to the source electrode and the drain electrode, the organic semiconductor made of an organic material with photosensitivity.
摘要:
The present invention disclosed an organic thin film transistor, an organic thin film transistor array substrate and an organic thin film transistor display. The present invention disclosed organic materials which is proper for the application to a large screen display. The presentation also disclosed structures and a method for manufacturing such an organic thin film transistor, the organic thin film transistor array substrate and the organic thin film transistor display.
摘要:
A method for manufacturing a semiconductor device including forming a first wire on a substrate, forming a lower film on the first wire, forming a photosensitive pattern on the lower film using a photosensitive material, forming contact holes for exposing the first wire by etching the lower film using the photosensitive film as an etching mas, removing part of the photosensitive film pattern by an ashing process to expose a borderline of the lower film defining the contact holes and forming second wire connected to the firs wire via the contact holes.
摘要:
A liquid crystal display includes an array pixel including a plurality of pixels arranged in a matrix. The plurality of pixels include a set of pixels including a pair of center pixels adjacent to each other, and a pair of first-color pixels and a pair of second-color pixels obliquely facing each other across the center pixels. Each pixel includes a pixel electrode and a thin film transistor. The liquid crystal display further includes a plurality of gate lines extending in a row direction for transmitting a gate signal to the pixels, and a plurality of data lines extending in a column direction for transmitting data signals to the pixels. The pixels are subject to polarity inversion.
摘要:
Simplified method of manufacturing liquid crystal displays. A gate wire including a gate line, a gate pad and a gate electrode is formed on the substrate by using the first mask. A gate insulating layer, a semiconductor layer, a ohmic contact layer and a metal layer are sequentially deposited to make a quadruple layers, and patterned by a dry etch of using the second mask. At this time, the quadruple layers is patterned to have a matrix of net shape layout and covering the gate wire. An opening exposing the substrate is formed in the display area and a contact hole exposing the gate pad is formed in the peripheral area. Next, ITO is deposited and a photoresist layer coated on the ITO. Then, the ITO layer is patterned by using the third mask and a dry etch, and the data conductor layer and the ohmic contact layer not covered by the ITO layer is dry etched. After depositing a passivation layer, a opening is formed by using the fourth mask and the exposed semiconductor layer through the opening is etched to separate the semiconductor layer under the adjacent data line.
摘要:
Simplified method of manufacturing liquid crystal displays. A gate wire including a gate line, a gate pad and a gate electrode is formed on the substrate by using the first mask. A gate insulating layer, a semiconductor layer, a ohmic contact layer and a metal layer are sequentially deposited to make a quadruple layers, and patterned by a dry etch of using the second mask. At this time, the quadruple layers is patterned to have a matrix of net shape layout and covering the gate wire. An opening exposing the substrate is formed in the display area and a contact hole exposing the gate pad is formed in the peripheral area. Next, ITO is deposited and a photoresist layer coated on the ITO. Then, the ITO layer is patterned by using the third mask and a dry etch, and the data conductor layer and the ohmic contact layer not covered by the ITO layer is dry etched. After depositing a passivation layer, a opening is formed by using the fourth mask and the exposed semiconductor layer through the opening is etched to separate the semiconductor layer under the adjacent data line.