Patent application number | Description | Published |
20090085076 | Photo Sensor and a Method for Manufacturing Thereof - According to a method of manufacturing photo sensor, a diode can be formed by one lithography step. In addition, the source/drain is arranged on a gate dielectric layer to avoid the conventional plug structure. Moreover, a diode stack is formed on one of the source/drain to simplify the structure of the photo sensor. | 04-02-2009 |
20090085077 | Photo Sensor and a Method for Manufacturing Thereof - A photo sensor has an insulator layer for covering a diode stack, and the insulator layer is made of phtoresist to reduce a side leakage current. | 04-02-2009 |
20090283808 | Photo Sensor - A photo sensor has an insulator layer for covering a diode stack, and the insulator layer is made of photoresist to reduce a side leakage current. | 11-19-2009 |
20100265565 | Display Device with Improved Display Performance - A display device includes a first substrate, a second substrate, a plurality of display units and a plurality of partitioning walls. The second substrate is disposed above the first substrate. The display units are disposed between the first substrate and the second substrate, and each of the display units has a dielectric solvent. The partitioning walls are disposed between adjacent display units correspondingly, and a dielectric coefficient of each of the partitioning walls is less than that of the dielectric solvent adjacent thereto. Because the dielectric coefficient of the partition walls is less than that of the dielectric solvent adjacent to the partition wall, a capacitance value induced at the partition wall by a driving voltage can be decreased. Thus, crosstalk phenomena can be avoided in the display unit that is not driven. | 10-21-2010 |
20100284052 | Color Filter and Color Reflective Display Device with the Same - A color filter includes a substrate, a plurality of pixel units and a transparent electrode layer. The substrate has a plurality of pixel regions. Each pixel region has a plurality of first sub-pixel regions and a second sub-pixel region. Each pixel unit is disposed in one of the pixel regions corresponding thereto and includes a plurality of and a white filter film. Each color filter film is disposed in one of the first sub-pixel regions corresponding thereto and the white filter film is disposed in the second sub-pixel region. Since the area of the white filter film is larger than the area of each color filter film, the color filter has high light-transmittance. The transparent electrode layer is disposed on the pixel units. Furthermore, a color reflective display device with the color filter is disclosed. | 11-11-2010 |
20100323576 | Fabricating Method of Flexible Display Device - In a fabricating method of flexible display device, firstly, a sacrificial layer is formed on a first rigid substrate. Secondly, a first flexible substrate is formed on the sacrificial layer. The bonding force of the sacrificial layer absorbing a breaking-bond light may be broken and the first flexible substrate is transparent for the breaking-bond light. Moreover, the transmission rate of visible light of the first flexible substrate is larger than that of the sacrificial layer. Then, the sacrificial layer is illuminated by the breaking-bond light for breaking the bonding force of the sacrificial layer to separate the first rigid substrate from the first flexible substrate. Since the first rigid substrate has a high transmission rate of visible light, may be separated from the first flexible substrate by the first breaking-bond light with low energy, the cost of fabricating the flexible display device may display the images with real color. Therefore, the chromatic performance of the flexible display device may be enhanced. | 12-23-2010 |
20110008921 | Method for Fabricating Flexible Display Device - A method for fabricating flexible display device includes the following steps. Firstly, a rigid substrate is provided. Secondly, a sacrificing layer is formed on the rigid substrate. Thirdly, an element layer is formed on the sacrificing layer. Fourthly, the sacrificing layer is etched by a gas and then gasified, so that the element layer is separated from the rigid substrate. Then, the element layer is adhered to a flexible substrate. Because products generated by the sacrificing layer reacting with the gas are gases, the products can be removed by air exhaust for simplifying process. Thus, the cost of the process of fabricating flexible display device can be decreased. | 01-13-2011 |
20110024739 | Digital X-Ray Detecting Panel and Method for Manufacturing the same - A digital X-ray detecting panel includes a wavelength transforming layer and a photoelectric detecting plate. The wavelength transforming layer is configured for transforming X-ray into visible light. The photoelectric detecting plate is disposed under the wavelength transforming layer. The photoelectric detecting plate includes a substrate and a number of photoelectric detecting units disposed on the substrate and arranged in an array. Each of the photoelectric detecting units includes a thin film transistor and a photodiode electrically connected to the thin film transistor. The thin film transistor has an oxide semiconductor layer. The digital X-ray detecting panel can avoid a photocurrent in the thin film transistor, and thereby improving detecting accuracy of the digital X-ray detecting panel. A method for manufacturing the digital X-ray detecting panel is also provided. | 02-03-2011 |
20110095285 | Display Device and Thin Film Transistor Array Substrate and Thin Film Transistor thereof - A display device including a thin film transistor array substrate, transparent electrode substrate and a display medium layer disposed therebetween is provided. The thin film transistor array substrate includes a plurality of thin film transistors with an oxide semiconductor layer respectively. In each thin film transistor, a gate electrode and a gate insulating layer are disposed on a substrate sequentially and the gate electrode is covered by the gate insulating layer. The oxide semiconductor layer is conformably covering on the gate insulating layer and has a channel region located above the gate electrode. A source electrode and a drain electrode of each thin film transistor are disposed on the oxide semiconductor layer and at one side of the channel region respectively. Since the oxide semiconductor layer is made of transparent material, the patterning process of the oxide semiconductor layer can be omitted during the manufacturing process of the reflective display device. Thus, the cost and time-consumed of manufacturing process of the reflective display device can be reduced. | 04-28-2011 |
20120026209 | COLOR DISPLAY DEVICE - A color display device including a lower substrate, a driving array, a display layer, a color filter substrate and a transparent substrate is provided. The driving array is disposed on the lower substrate. The display layer is disposed on the driving array and includes a first region and a second region. The color filter substrate is disposed on the display layer and is located in the first region. The transparent substrate is disposed on the display layer and is located in the second region. The color display device has a high light reflectivity, thereby improving the display quality of the color display device. | 02-02-2012 |
20120026577 | DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - A display device includes an active element array substrate, a display layer and a transparent shock absorption layer. The display layer is disposed on the active element array substrate. The transparent shock absorption layer is disposed on the display layer. The transparent shock absorption layer is formed by curing liquid adhesive material. A manufacturing method of display device is also provided. | 02-02-2012 |
20120062982 | DISPLAY DEVICE WITH IMPROVED DISPLAY PERFORMANCE - A display device includes a first substrate, a second substrate, a plurality of display units and a plurality of partitioning walls. The second substrate is disposed above the first substrate. The display units are disposed between the first substrate and the second substrate, and each of the display units has a dielectric solvent. The partitioning walls are disposed between adjacent display units correspondingly, and a dielectric constant of each of the partitioning walls is less than that of the dielectric solvent adjacent thereto. Because the dielectric constant of the partition walls is less than that of the dielectric solvent adjacent to the partition wall, a capacitance value induced at the partition wall by a driving voltage can be decreased. Thus, crosstalk phenomena can be avoided in the display unit that is not driven. | 03-15-2012 |
20120154344 | ELECTRIC PAPER DISPLAY APPARATUS - An electric paper display apparatus includes a substrate, a display layer and a protective layer. The display layer is disposed on the substrate. The protective layer is disposed on the display layer. The protective layer includes a bottom surface facing to the display layer and a plurality of color filter patterns disposed on the bottom surface. It does not need to dispose a color filter substrate on the protective layer of the electric paper display apparatus, so a cost and a thickness of the electric paper display apparatus can be reduced. | 06-21-2012 |