Abstract: A fire extinguishing body comprising a packaging bag formed from one or more substrates each comprising a resin layer, and a deliquescent fire extinguishing agent sealed in the packaging bag, the packaging bag having a sealing part at its peripheral edge, and the adhesion strength between the substrates in the sealing part being 5 N/15 mm or more.

Abstract: An examination marker for use in diagnostic imaging using microwaves. The examination marker includes a marker main body to be attached to an examination target. The marker main body is capable of displaying, on the marker main body, an index for use in scanning the examination target marker and is deformable following the shape of the examination target. The marker main body has a relative permittivity of 10 or less to microwaves at a frequency of 1 GHz.

Abstract: A fire extinguishing body includes a substrate and a fire extinguishing agent-containing layer facing the substrate, the substrate having a Young's modulus of 2 MPa or more.

Abstract: A designed electromagnetic wave suppressor includes a design layer, and an electromagnetic wave suppressor having an electromagnetic wave return attenuation of 10 dB or more. A building material includes the designed electromagnetic wave suppressor. An electromagnetic wave suppression chamber includes a room in which at least part of the inner walls is covered with the building material, and a transmitter disposed in the room. A system includes the electromagnetic wave suppression chamber, and a wireless communication device disposed in the electromagnetic wave suppression chamber.

Abstract: A manufacturing method for manufacturing a dielectric layer included in a reflective electromagnetic wave absorber, the method including the steps of: preparing a resin composition containing at least one dielectric compound and a resin component, and having a relative permittivity higher than 10.0 at a frequency of 3.7 GHz or 90 GHz; and forming a dielectric layer made from this resin composition and having a thickness of 20 to 7000 ?m. A resin composition according to the present disclosure is used to form a dielectric layer included in a reflective electromagnetic wave absorber, the resin composition containing at least one dielectric compound and a resin component, and having a relative permittivity higher than 10.0 at a frequency of 3.7 GHz or 90 GHz.

Abstract: A method for producing an organic conductive film includes a step of preparing a coating liquid containing an acid-based organic conductive polymer, an alkali neutralizing agent, and a liquid medium, and having a pH of 4.0 to 6.5 at 25° C., a step of applying the coating liquid to a base layer, and a step of removing the liquid medium from the applied coating liquid.

Abstract: A fire stopper includes a fire extinguishing agent-containing layer and a resin substrate arranged in this order.

Abstract: A transparent conductive gas barrier laminate according to the present disclosure includes a transparent gas barrier film and a transparent conductive layer in this order from outside toward inside. In the laminate, the transparent gas barrier film has a b* value of more than 0 in a L*a*b* color system, and the transparent conductive layer contains a conductive polymer and has a b* value of less than 0 in the L*a*b* color system.

Abstract: An electromagnetic wave suppression sheet includes an electromagnetic wave transmitting layer having conductivity and transparency; a suppression layer having transparency; a conductive mesh having openings formed by woven lines; and an adhesive layer having transparency in this order from an outer side toward an inner side. The openings of the conductive mesh have a region in which the suppression layer and the adhesive layer are in contact with each other. A method of manufacturing an electromagnetic wave suppression sheet includes steps of preparing a laminate including the suppression layer, and the conductive mesh disposed to be in contact with the suppression layer; and applying a pressure to the conductive mesh in a direction of the suppression layer.

Abstract: A laminate film including a barrier film and an adhesion-enhancing layer formed on the barrier film and having a thickness in a range of from 0.01 ?m to 1 ?m. The adhesion-enhancing layer includes polyisocyanate and a polymer including a group having a reactive carbon-carbon double bond and a plurality of hydroxyl groups.

Abstract: The present invention provides a barrier film laminate including a first barrier film that includes a first substrate layer and a first barrier layer formed on the first substrate layer, a second barrier film that includes a second substrate layer and a second barrier layer formed on the substrate layer, and an adhesive layer. In the barrier film laminate, the first barrier film is bonded with the second barrier film so that the first barrier layer faces the second barrier layer with the adhesive layer interposed therebetween. In one embodiment of the barrier film laminate, the adhesive layer is formed of an adhesive containing an epoxy resin, a curing agent having an amino group, and either a silane coupling agent having an epoxy group or a silane coupling agent having an amino group and two hydrolyzable functional groups.

Abstract: A transparent conductive gas barrier laminate includes a first transparent gas barrier film; a transparent adhesive layer made of one adhesive selected from the group consisting of an acrylic adhesive, a silicone adhesive, a polyolefin adhesive, a urethane adhesive, and a polyvinyl ether adhesive; a transparent conductive layer made of a conductive organic material or a conductive inorganic material; and a second transparent gas barrier film. The first transparent gas barrier film, the transparent adhesive layer, the transparent conductive layer, and the second transparent gas barrier film are laminated in this order. A method for producing the transparent conductive gas barrier laminate includes bonding together the first transparent gas barrier film and the transparent conductive layer via the transparent adhesive layer.

Abstract: The present invention provides a wavelength conversion sheet protective film having a structure in which a first film, which includes a first substrate and a first barrier layer, and a second film, which includes a second substrate, are bonded to each other at a surface of the first barrier layer and one surface of the second substrate via an adhesive layer, wherein a thermal expansion coefficient in a TD direction in a temperature range of 30 to 90° C. is about 1.0×10?4/K or less.

Abstract: An examination marker is used in diagnostic imaging using microwaves, including a marker body to be adhered to a site to be examined. The marker body is configured to display an index used for scanning of the site to be examined and to deform in accordance with a shape of the site to be examined, and the marker body has a transmittance of 70% or higher to microwaves at a frequency of 2 GHz.

Abstract: A transparent conductive gas barrier laminate according to the present disclosure includes a transparent gas barrier film and a transparent conductive layer in this order from outside toward inside. In the laminate, the transparent gas barrier film has a b* value of more than 0 in a L*a*b* color system, and the transparent conductive layer contains a conductive polymer and has a b* value of less than 0 in the L*a*b* color system.

Abstract: The present invention provides a barrier film laminate including a first barrier film that includes a first substrate layer and a first barrier layer formed on the first substrate layer, a second barrier film that includes a second substrate layer and a second barrier layer formed on the substrate layer, and an adhesive layer. In the barrier film laminate, the first barrier film is bonded with the second barrier film so that the first barrier layer faces the second barrier layer with the adhesive layer interposed therebetween. In one embodiment of the barrier film laminate, the adhesive layer is formed of an adhesive containing an epoxy resin, a curing agent having an amino group, and either a silane coupling agent having an epoxy group or a silane coupling agent having an amino group and two hydrolyzable functional groups.

Abstract: The present invention provides a gas barrier laminated film including: a first barrier film having a first substrate, a first inorganic thin film layer, and a first gas barrier covering layer; and a second barrier film having a second substrate, a second inorganic thin film layer, and a second gas barrier covering layer; wherein the first barrier film and the second barrier film are laminated through an adhesive layer so that the first gas barrier covering layer and the second gas barrier covering layer are opposite to each other; the distance between the first inorganic thin film layer and the second inorganic thin film layer is about 1.0 ?m or more; and the refractive index difference between the first gas barrier covering layer and the adhesive layer, and the refractive index difference between the second gas barrier covering layer and the adhesive layer are both about 0.05 or less.

Abstract: A laminate film including a barrier film and an adhesion-enhancing layer formed on the barrier film and having a thickness in a range of from 0.01 ?m to 1 ?m. The adhesion-enhancing layer includes polyisocyanate and a polymer including a group having a reactive carbon-carbon double bond and a plurality of hydroxyl groups.

Abstract: To provide a transparent organic EL display panel that does not impair transparency while light is not emitted, the transparent organic electroluminescence display panel is provided with first transparent electrodes formed on a transparent substrate, a transmittance-adjusting layer formed on the transparent substrate and away from the first transparent electrodes, a partition wall formed on the transparent substrate and the transmittance-adjusting layer so as to partition the first transparent electrodes, a light-emitting medium layer formed on the first transparent electrodes and including at least an organic light-emitting layer, and a second transparent electrode formed on the light-emitting medium layer.

Abstract: One embodiment of the present invention is an organic electroluminescence element including: a substrate; a first electrode that is formed on the substrate; a luminescent medium layer that includes at least an organic luminescent layer and one or more functional layers other than the organic luminescent layer formed on the first electrode; and a second electrode that faces the first electrode with the luminescent medium layer interposed therebetween, wherein at least one functional layer formed between the first electrode and the organic luminescent layer includes first and second metal compounds and the functional layer is a functional layer in which a gradient is obtained at least partially in a film thickness direction for a ratio of the first metal compound to the second metal compound.