摘要:
A liquid crystal panel including a first substrate, a second substrate, a liquid crystal layer disposed between the first substrate and the second substrate, a counter electrode, a pixel array structure, at least one alignment layer and at least one polymer layer is provided. The counter electrode is disposed between the liquid crystal layer and the first substrate. The pixel array structure is disposed between the liquid crystal layer and the second substrate. The alignment layer is disposed between the counter electrode and the liquid crystal layer and between the pixel array structure and the liquid crystal layer. The polymer layer is disposed between the alignment layer and the liquid crystal layer, and a material of the polymer layer includes polymer monomers and polymethyl methacrylate (PMMA). A content of PMMA in the polymer layer is greater than 1 ppm and smaller than 15000 ppm.
摘要:
A method of forming a display panel includes providing a first substrate having a transparent electrode, and a second substrate having a pixel electrode. Subsequently, an alignment material is provided and covers on the transparent electrode and/or the pixel electrode, and a photoelectric twisting layer is provided between the first substrate and the second substrate. The alignment material is first in a non-aligned state, and is radiation-polymerizable. The photoelectric twisting layer does not include any radiation-polymerizable material. Thereafter, a voltage difference is applied to drive molecules of the photoelectric twisting layer, and a radiating process is performed on the alignment material. The twisted molecules of the photoelectric twisting layer induce the surface molecules of the alignment material to arrange in an ordered state, and the alignment material is polymerized according to the ordered state as a first alignment film.
摘要:
A method of forming a display panel includes providing a first substrate having a transparent electrode, and a second substrate having a pixel electrode. Subsequently, an alignment material is provided and covers on the transparent electrode and/or the pixel electrode, and a photoelectric twisting layer is provided between the first substrate and the second substrate. The alignment material is first in a non-aligned state, and is radiation-polymerizable. The photoelectric twisting layer does not include any radiation-polymerizable material. Thereafter, a voltage difference is applied to drive molecules of the photoelectric twisting layer, and a radiating process is performed on the alignment material. The twisted molecules of the photoelectric twisting layer induce the surface molecules of the alignment material to arrange in an ordered state, and the alignment material is polymerized according to the ordered state as a first alignment film.
摘要:
A liquid crystal panel including a first substrate, a second substrate, a liquid crystal layer disposed between the first substrate and the second substrate, a counter electrode, a pixel array structure, at least one alignment layer and at least one polymer layer is provided. The counter electrode is disposed between the liquid crystal layer and the first substrate. The pixel array structure is disposed between the liquid crystal layer and the second substrate. The alignment layer is disposed between the counter electrode and the liquid crystal layer and between the pixel array structure and the liquid crystal layer. The polymer layer is disposed between the alignment layer and the liquid crystal layer, and a material of the polymer layer includes polymer monomers and polymethyl methacrylate (PMMA). A content of PMMA in the polymer layer is greater than 1 ppm and smaller than 15000 ppm.
摘要:
Provided is a system for parallel transmission over WLAN and method therefor. The method comprises causing a first mobile station to transmit an RTS and causing a second mobile station to transmit a CTS after receiving the RTS; searching third mobile stations to find any one receiving the RTS not the CTS and taking it as transmitting terminal; after receiving the CTS causing the first mobile station to transmit a first fragmentation to the second mobile station, after receiving the first fragmentation causing the second mobile station to reply to the first mobile station with an ACK, and repeatedly causing the first mobile station to transmit a next fragmentation until the fragmentations have been transmitted; and causing the transmitting terminal to transmit an RTS to a receiving terminal when the first mobile station is transmitting, and causing the receiving terminal to transmit a CTS after the second mobile station replying to the first mobile station with the ACK.
摘要:
A device for cutting a row of interconnected rectangular plate-shaped workpieces into a plurality of individual rectangular units, includes a machine bed, and a sliding member disposed slidably on the machine bed and movable along a straight path. A rectangular work seat is disposed rotatably on the sliding member, and is rotatable about a vertical axis on the sliding member. The work seat has four sides, a length and a width. A mounting frame is disposed around the work seat, and defines a rectangular hole therein, which has four sides that are respectively parallel to the four sides of the work seat, and a length and a width that are respectively and slightly larger than those of the work seat. An adhesive sheet has an adhesive top surface with an outer peripheral portion that is adhered to a bottom surface of the mounting frame. The interconnected workpieces are adhered to the top surface of the adhesive sheet so as to be cut while disposed inside the mounting frame. The suction unit sucks and positions the mounting frame on the work seat. When the work seat is rotated by an angle of 90° between two consecutive cutting actions of the cutter, the interconnected workpieces are cut into individual rectangular units.