Abstract: An electrode structure includes: a plurality of pixel electrodes arranged separately from each other; and a plurality of dielectric layers laminated in a first direction with respect to the plurality of pixel electrodes, in which the plurality of dielectric layers includes: a first dielectric layer that spreads over the plurality of pixel electrodes in a direction intersecting with the first direction; and a second dielectric layer that includes dielectric material having a refractive index higher than that of the first dielectric layer, sandwiches the first dielectric layer together with the plurality of pixel electrodes, and has a slit at a position overlapping space between pixel electrodes adjacent when viewed from the first direction.

Abstract: A relative position determining apparatus according to the present invention includes: a first trajectory information obtaining unit obtaining first trajectory information that is a set of first trajectory points indicating positions that a first moving object has passed; a second trajectory information obtaining unit obtaining second trajectory information that is a set of second trajectory points indicating positions that a second moving object has passed; a map information obtaining unit obtaining map information including lane shape information indicating a shape of each lane; a matching determining unit determining whether each of the first trajectory information and the second trajectory information matches the lane shape information; and a relative lane determining unit determining relative lanes of the first moving object and the second moving object, based on a result of the determination by the matching determining unit.

Abstract: An ammonia removal material to be used for obtaining a mixed gas (B) having an ammonia concentration of 0.1 mol ppm or less from a mixed gas (A) including hydrogen, nitrogen, and ammonia and having an ammonia concentration exceeding 0.1 mol ppm, the ammonia removal material containing zeolite having a pore size of 0.5 nm or more and 2.0 nm or less, a method for removing ammonia from the mixed gas using the ammonia removal material, and a method for producing a hydrogen gas for a fuel cell automobile, the method including the method for removing ammonia.

Abstract: An ammonia removal material to be used for obtaining a mixed gas (B) having an ammonia concentration of 0.1 mol ppm or less from a mixed gas (A) including hydrogen, nitrogen, and ammonia and having an ammonia concentration exceeding 0.1 mol ppm, the ammonia removal material containing zeolite having a pore size of 0.5 nm or more and 2.0 nm or less, a method for removing ammonia from the mixed gas using the ammonia removal material, and a method for producing a hydrogen gas for a fuel cell automobile, the method including the method for removing ammonia.

Abstract: Provided is a gas purification method in which the amount of adsorbent is reduced, an adsorption column can be considerably miniaturized, the amount of regeneration gas can be reduced and the running cost can be reduced in cases where carbon dioxide or water which is an impurity contained in a gas to be purified is adsorptively removed; and in which a gas to be purified which contains carbon dioxide having a partial pressure of 35 Pa or lower as impurities is brought into contact with an adsorbent whose heat-regeneration temperature is set to from 160° C. to 240° C. composed of a faujasite type zeolite whose cation is sodium to adsorptively remove the carbon dioxide. Also provided is a gas purification method in which a gas to be purified is brought into contact with an adsorbent which is subjected to an initial activation at 300° C. or higher and composed of a faujasite type zeolite whose cation is lithium to adsorptively remove the residual carbon dioxide and a heat-regeneration is performed at 240° C.

Abstract: An electrically driven seat covering paper feeding mechanism feeds seat covering paper from a seat covering paper roll stored in a seat covering paper roll storage portion onto a toilet seat body through a seat covering paper feed path. A seat covering paper cutting mechanism cuts the seat covering paper fed to the surface of the toilet seat body at the rear edge portion of the paper. A control unit operates the electrically driven seat covering paper feeding mechanism by predetermined control signals sequentially output therefrom to control the feeding of the seat covering paper. A battery supplies electricity to the seat covering paper feeding mechanism and the control unit.

Abstract: Disclosed is a method for continuous extrusion coating of a hollow core material with a highly expanded polyolefin resin, which is characterized by subjecting an extruded molten mass of an expandable polyolefin resin to external cooling at the point at which said molten mass begins to foam and supplying said hollow core material with the surface temperature thereof kept below the softening point of said polyolefin resin for thereby enhancing the fastness of adhesion of the highly expanded polyolefin foam with the hollow core material and at the same time facilitating the release of the two materials thus joined.

Abstract: A styrene-butadiene-styrene block copolymer containing 50 to 70% by weight of butadiene can be used as a base material of an element capable of detecting leakage of petroleum products by detecting to the change in an electrical signal. By use of this detecting element any leakage of petroleum products from a transportation pipe line may be detected and located quickly and precisely.