Patent application number | Description | Published |
20080268582 | Method for Exposing Photo-Sensitive SAM Film and Method for Manufacturing Semiconductor Device - A disclosed technology is a method for exposing a photo-sensitive SAM film, wherein a self-assembled-monolayer (photo-sensitive SAM film) having photo-sensitivity, exhibiting hydrophobicity before exposure, and exhibiting hydrophilicity after exposure is formed on a substrate, exposure is performed to the substrate in a state in which a surface of the substrate on which the film has been formed is dipped in liquid or in a state in which a light-sensitive surface of the substrate faces downward to be in contact with liquid, exposure light is ultraviolet light, visible light, or light with an exposure-wavelength of 350 nm or more to 800 nm or less, and the liquid is at least one of organic solvent containing an aromatic group and organic solvent of alcohols, ethers, or ketones. | 10-30-2008 |
20080315191 | Organic Thin Film Transistor Array and Method of Manufacturing the Same - An n-type TFT and a p-type TFT are realized by selectively changing only a cover coat without changing a TFT material using an equation for applying the magnitude of a difference in the Fermi energy between an interface of semiconductor and an electrode and between an interface of semiconductor and insulator. At this time, in order to configure a predetermined circuit, the process is performed, as a source electrode and a drain electrode of the p-type TFT and a source electrode and a drain electrode of the n-type TFT being connected all, respectively, and an unnecessary interconnection is cut by irradiating light using a scanning laser exposure apparatus or the like. | 12-25-2008 |
20090001361 | Thin-film transistor device and a method for manufacturing the same - The present invention provides a method of manufacturing a thin-film transistor device. This method enables improvement in performance of a complementary TFT circuit incorporated in a thin- and light-weighted image display device or a flexible electronic device and also enables reduction of power consumption and reduction of manufacturing cost of the circuit. Further in the method, the number of manufacturing steps is decreased so that mass production and growth in size of thin film transistor devices are facilitated through a printing technique. In this method, electrodes forming n-type and p-type TFT and an organic semiconductor are made of the same material in both types of TFT by the solution-process and/or printable process method. A first polarizable thin-film | 01-01-2009 |
20090057676 | THIN FILM SEMICONDUCTOR DEVICE - A thin film semiconductor device is provided which includes an insulating substrate, a Si thin film formed over the insulating substrate, and a transistor with the Si thin film as a channel thereof. The Si thin film includes a polycrystal where a plurality of narrow, rectangular crystal grains are arranged. A surface of the polycrystal is flat at grain boundaries thereof. Also, an average film thickness of the boundaries of crystals of the Si thin film ranges from 90 to 100% of an intra-grain average film thickness. | 03-05-2009 |
20090102761 | Image display device - The invention provides an image display device that has an especially satisfactory display quality for animated images, and sufficiently suppresses the irregularities of display quality among pixels. The image display device includes a light emitting drive means that drives a light emitting means, based on an analog display signal inputted to the pixels, and a light emitting control switch for controlling a light-on or light-off of the light emitting means on one end of the light emitting drive means in each pixel. | 04-23-2009 |
20090114958 | Wiring Board and Method for manufacturing the Same - A wiring board with an electronic device comprising a plurality of trenches arranged in parallel on a substrate, a common trench communicating the plurality of trenches with each other at one of their ends on the substrate, a metal layer formed at the bottom of the plurality of trenches, and an electrode layer connected with the metal layer and formed on a bottom of the common trench, wherein the electrode layer on the bottom of the common trench constitutes a source electrode or a drain electrode of a field effect transistor, whereby the wiring board and an electronic circuit having a good fine wire pattern and a good narrow gap between the patterns using a coating material can be formed, and a reduction for a cost of an organic thin film electronic device and the electronic circuit can be attained since they can be realized through a development of a printing technique. | 05-07-2009 |
20090134386 | Organic Field Effect Transistor - An organic field-effect transistor has a gate insulating layer comprising a cured epoxy resin. The epoxy resin has a lower concentration of trapping centres compared with a conventional epoxy resin in which trapping centres are provided by hydroxyl (OH) groups. The lower concentration of trapping centres can be achieved by reducing the number of hydroxyl groups throughout the layer and/or by reducing the number of hydroxyl groups in a surface region. | 05-28-2009 |
20090294852 | Electronic device - A thin-film transistor includes an insulating substrate, a source electrode, and a drain electrode, disposed over the top of the insulating substrate, a semiconductor layer electrically continuous with the source electrode, and the drain electrode, respectively, a gate dielectric film formed over the top of at least the semiconductor layer; and a gate electrode disposed over the top of the gate dielectric film so as to overlap the semiconductor layer. Further, a first bank insulator is formed so as to overlie the source electrode, a second bank insulator is formed so as to overlie the drain electrode, and the semiconductor layer, the gate dielectric film, and the gate electrode are embedded in a region between the first bank insulator, and the second bank insulator. | 12-03-2009 |
20100073267 | Image display device - Disclosed herewith an image display device capable of displaying high quality images and preferred for reducing the manufacturing cost. The image display device is provided with illuminating state controlling state for controlling the illuminating state or non-illuminating state and constant voltage supply for supplying a constant voltage to each pixel through a signal line when the illuminating state is selected for the pixel. | 03-25-2010 |
20120086739 | Image Display Device - The invention provides an image display device that has an especially satisfactory display quality for animated images, and sufficiently suppresses the irregularities of display quality among pixels. The image display device includes a light emitting drive means that drives a light emitting means, based on an analog display signal inputted to the pixels, and a light emitting control switch for controlling a light-on or light-off of the light emitting means on one end of the light emitting drive means in each pixel. | 04-12-2012 |
20130293601 | Image Display Device - The invention provides an image display device that has an especially satisfactory display quality for animated images, and sufficiently suppresses the irregularities of display quality among pixels. The image display device includes a light emitting drive means that drives a light emitting means, based on an analog display signal inputted to the pixels, and a light emitting control switch for controlling a light-on or light-off of the light emitting means on one end of the light emitting drive means in each pixel. | 11-07-2013 |
20140139564 | IMAGE DISPLAY DEVICE - The invention provides an image display device that has an especially satisfactory display quality for animated images, and sufficiently suppresses the irregularities of display quality among pixels. The image display device includes a light emitting drive means that drives a light emitting means, based on an analog display signal inputted to the pixels, and a light emitting control switch for controlling a light-on or light-off of the light emitting means on one end of the light emitting drive means in each pixel. | 05-22-2014 |