摘要:
A method for fabricating a cathode plate of a field emission display is disclosed. A patterned electrode layer is formed on a surface of the substrate, and emitters for absorbing a light source are formed on the patterned electrode layer. Next, a dielectric layer is formed over the substrate, and a patterned gate layer is formed on the dielectric layer. Thereafter, a backside exposure process is carried out using the emitters as a mask, and portions of the dielectric layer not masked by the emitters react with a light used in the backside exposure process. Next, portions of the dielectric layer not exposed to the light and portions of the gate layer are removed to form via holes and gate holes.
摘要:
The present invention provides a field emission system and a method for improving its vacuum. The present invention employs aging surface-unsaturated carbon nanotubes in non-display areas of the field emission system as getter material to absorb residual gas within the system so as to improve its vacuum. The present method for improving vacuum of the field emission system can be integrated with the standard process of a field emission display device without additional fabricating steps, and thus facilitating the mass production of the field emission display device.
摘要:
A method for fabricating a cathode plate of a field emission display is disclosed. A patterned electrode layer is formed on a surface of the substrate, and emitters for absorbing a light source are formed on the patterned electrode layer. Next, a dielectric layer is formed over the substrate, and a patterned gate layer is formed on the dielectric layer. Thereafter, a backside exposure process is carried out using the emitters as a mask, and portions of the dielectric layer not masked by the emitters react with a light used in the backside exposure process. Next, portions of the dielectric layer not exposed to the light and portions of the gate layer are removed to form via holes and gate holes.
摘要:
A field emission display module. A white field emission display (FED) comprises a plurality of dots (pixels) arranged in matrix, generating different gray levels according to external display data. A color filter display is disposed on the white field emission display, generating color images with the gray levels generated by the white field emission display.
摘要:
A thin film transistor array substrate and a manufacturing method thereof are provided. In the manufacturing method, a first patterned conductive layer including a plurality of scan lines and a plurality of gates connected with the scan lines is formed on a substrate. A patterned gate insulating layer having a plurality of openings is then formed on the substrate to cover at least a portion of the first patterned conductive layer, and a plurality of dielectric patterns are formed in the openings. A plurality of semiconductor patterns are formed on the patterned gate insulating layer. A second patterned conductive layer is formed on the semiconductor patterns, the patterned gate insulating layer, and the dielectric patterns. A passivation layer is formed on the semiconductor patterns, the patterned gate insulating layer, and the dielectric patterns. A plurality of pixel electrodes are formed on the passivation layer.
摘要:
A touch panel including a substrate, a plurality of first and second sensing series, and a plurality of conductive repairing pattern layers is provided. The first sensing series are disposed on the substrate and extended along a first direction. Each of the first sensing series includes a plurality of first sensing pads and first bridge lines, and the first bridge lines serially connect two adjacent first sensing pads. The second sensing series are disposed on the substrate and extended along a second direction. Each of the second sensing series includes a plurality of second sensing pads and second bridge lines, and the second bridge lines serially connect two adjacent second sensing pads. Each conductive repairing pattern layer electrically floating locates around the crossover region of the first and second sensing series. Two adjacent sensing pads are connected by the conductive repairing pattern layer after a repair procedure is finished.
摘要:
The present invention provides a field emission system and a method for improving its vacuum. The present invention employs aging surface-unsaturated carbon nanotubes in non-display areas of the field emission system as getter material to absorb residual gas within the system so as to improve its vacuum. The present method for improving vacuum of the field emission system can be integrated with the standard process of a field emission display device without additional fabricating steps, and thus facilitating the mass production of the field emission display device.
摘要:
Methods for fabricating carbon nano-tube (CNT) powders and field emission display devices. Carbon nano-tube powders are deposited and gathered in a vacuum chamber. A physical surface treatment is performed on the carbon nano-tube powders. The carbon nano-tube powders are mixed into a paste and screen printed on a substrate, wherein the physical surface treatment comprises laser radiation, ion-beam bombardment, high energy particle bombardment, or electron-beam bombardment.
摘要:
A thin film transistor array substrate and a manufacturing method thereof are provided. In the manufacturing method, a first patterned conductive layer including a plurality of scan lines and a plurality of gates connected with the scan lines is formed on a substrate. A patterned gate insulating layer having a plurality of openings is then formed on the substrate to cover at least a portion of the first patterned conductive layer, and a plurality of dielectric patterns are formed in the openings. A plurality of semiconductor patterns are formed on the patterned gate insulating layer. A second patterned conductive layer is formed on the semiconductor patterns, the patterned gate insulating layer, and the dielectric patterns. A passivation layer is formed on the semiconductor patterns, the patterned gate insulating layer, and the dielectric patterns. A plurality of pixel electrodes are formed on the passivation layer.
摘要:
The invention provides an electrophoretic deposition method of CNTs for a field emission device. It uses a triode structure having gates and a proper arrangement of applied voltages to improve the selectivity of the conventional EPD method. The electric field around the gates repels the charged or polarized nanostructure suspension in the electrophoresis bath and prevents the charged or polarized nanostructure materials from depositing in the neighborhood of the gates. Therefore, the nanostructure materials are selectively deposited on the cathode. An electrical short circuit between the gates and the cathodes can be avoided. It does not require a masked sacrificial layer, and therefore keeps the manufacturing process simple and the cost down.