INTERNATIONAL FRONTIER TECHNOLOGY LABORATORY, INC. Patent applications |
Patent application number | Title | Published |
20140196786 | A COMPOSITE GLASS PLATE - In order to obtain a composite glass plate which shields infrared light and/or ultraviolet light, two glass substrates on which transparent conductive layers are formed respectively are disposed with the transparent conductive layers thereof facing each other. Infrared light is shielded and electric power is generated by using one glass substrate as a light incident side electrode, disposing a silicon dioxide particle layer thereon, and filling a colorless electrolyte between the two glass substrates. Further, ultraviolet light is also shielded by disposing a titanium dioxide layer on the other glass substrate. This composite glass plate is used as a window glass plate to shield only infrared light and/or ultraviolet light and transmit only visible light. | 07-17-2014 |
20140190558 | TANDEM SOLAR CELL - A solar cell is configured by: arranging two glass substrates, each of which is provided with a transparent conductive layer, so that the transparent conductive layers face each other; disposing a titanium dioxide layer on one glass substrate; disposing silicon dioxide particles on the other glass substrate; and filling the space between the two glass substrates with an electrolyte. The glass substrate on which light does not enter may alternatively be a metal plate. A sensitizing dye such as a ruthenium complex may be absorbed onto the titanium dioxide layer or the silicon dioxide layer. Since the titanium dioxide layer generates electric power by means of ultraviolet light incident thereon and the silicon dioxide layer generates electric power by means of visible light and infrared light incident thereon, the generation efficiency of the solar cell is increased. | 07-10-2014 |
20140060630 | SILICON DIOXIDE SOLAR CELL - In order to increase the generation efficiency of a silicon dioxide solar cell, two conductive substrates are arranged so that the conductive surfaces thereof face each other, at least one of the substrates is disposed upon the substrate facing the light entry-side substrate, and an electrolyte is filled between the silicon dioxide particles compact and the light entry-side substrate. Silicon dioxide solar cells having this configuration exhibit a significantly increased short circuit current and open circuit voltage in comparison to solar cells in which the silicon dioxide and the electrolyte are mixed. This configuration can further be improved by disposing a titanium dioxide solar cell or a dye-sensitized titanium dioxide solar cell upon the light entry-side substrate to further increase the short circuit current and the open circuit voltage. | 03-06-2014 |
20130336846 | GLASS HAVING A PHOTOCATALYTIC FUNCTION - Provided is an inexpensive material having a photocatalytic action. A photocatalyst is obtained by halogenation-treating glass fibers containing silicon dioxide in its components. Fused quartz, soda-lime glass, non-alkali glass, and borosilicate glass may be used for the glass. Hydrofluoric acid, hydrochloric acid and hydrobromic acid may be used for the halogen acid, and hydrofluoric acid is most desirable. The glass can be particulate, fibrous or sheet form material. The glass exhibits a photocatalytic action even with visible light other than ultraviolet light, and also water repellent effect. The glass according to the invention is capable of decomposing organic substances, and therefore, it is used for window glass in buildings or in transportation such as automobiles, when formed in a plate shape, and for a filter in an air intake/exhaust apparatus, when formed in fibrous shape. | 12-19-2013 |
20120241684 | PHOTOELECTRODE MATERIAL AND PHOTOCELL MATERIAL - Provided is a photoelectric conversion material which is obtained through easy processing from a substance containing silicon oxide, which is inexpensive, imposes no burden on the environment, and is stable, as a component. Also provided are a photocell and a secondary photocell both using this material. Any of synthetic quartz, fused quartz glass, soda-lime glass, non-alkali glass, and borosilicate glass, which are compositions containing silicon oxide, is pulverized, immersed in an aqueous solution of halogen acid, washed with water, and dried. The resultant material is deposited on an electrode plate and this electrode plate is placed in water where an appropriate electrolyte is mixed. This electrode plate is electrically connected to an opposite electrode, and is used as a photoelectrode by irradiated with light. The material may be enclosed in a container, mixed with an organic electrolyte, having an extraction electrode and an opposite electrode, and a photocell is configured by irradiated with light through the extraction electrode. | 09-27-2012 |
20120125999 | KEYCARD AND KEYCARD-LOCK - To acquire a keycard, the creation of whose clone is impossible, and a keycard-lock that is locked/unlocked by the keycard. | 05-24-2012 |
20120062966 | CARD WHICH CAN BE AUTHENTICATED BY HOLOGRAM CHIP - A card authentication is performed. An authentication chip for performing authentication by a copy-disabled hologram chip is attached to a card and when or after the card is introduced into a handling device, the authentication chip information is read to perform authentication. Read may be performed in a planar shape but a linear shape can reduce the processing load. An arbitrary straight line or a curved line may be used as a read line shape by modifying the read position in association with the card movement when the card is placed to be read. When the card introduced to a terminal device is an unauthorized one, the card is ejected or an alarm is issued when the card is introduced inside. | 03-15-2012 |
20100306532 | AUTHENTICATION VERIFYING METHOD, AUTHENTICATION VERIFYING MEMBER AND AUTHENTICATION VERIFYING MEMBER PRODUCING METHOD - Authentication verifying for an object to be certified is carried out. An authentication verifying chip in which authentication verifying information is stored is mounted non-removably on a certificate. A confirmation chip in which the authentication verifying information is encrypted by a crypt key of a certificate issuer and is stored is mounted non-removably on the object to be certified. When verifying the authenticity of the object to be certified, the encrypted authentication verifying information in the confirmation chip is decrypted by the crypt key of the certificate issuer, and it is compared to the authentication verifying information in the authentication verifying chip. | 12-02-2010 |
20100044431 | CARD CAPABLE OF AUTHENTICATION - It is possible to prevent use of a forged card. An authentication chip describing information which cannot be copied or difficult to be copied is attached to a card and a card processing device includes a card authentication processing device. The information described in the authentication chip is degitized and encrypted to obtain encrypted data, which is described on an authentication certifying chip. The authentication certifying chip is attached to the card. The authentication certifying chip checks the validity of the authentication chip. Before a specific operation such as entry of a password is started, it is judged whether the card is true so as to exclude a forged card. | 02-25-2010 |
20090250520 | CARD WHICH CAN BE AUTHENTICATED BY HOLOGRAM CHIP - A card authentication is performed. An authentication chip for performing authentication by a copy-disabled hologram chip is attached to a card and when or after the card is introduced into a handling device, the authentication chip information is read to perform authentication. Read may be performed in a planar shape but a linear shape can reduce the processing load. An arbitrary straight line or a curved line may be used as a read line shape by modifying the read position in association with the card movement when the card is placed to be read. When the card introduced to a terminal device is an unauthorized one, the card is ejected or an alarm is issued when the card is introduced inside. | 10-08-2009 |