Abstract: A voltage is applied between a stainless steel plate and an electrode such that the stainless steel plate is an anode, whereby a passive film formed at a portion to be plated of the stainless steel plate melts due to the reduction reaction and is removed. Thereafter, a voltage is applied between the stainless steel plate and the electrode such that the stainless steel plate is a cathode, whereby a plating underlayer is formed at the portion to be plated of the stainless steel plate from which the passive film is removed.

Abstract: This invention relates to: a novel use of GST-? and GST-? suppressing agents; an apoptosis-inducing agent containing as active components a drug that suppresses GST-? and a drug that suppresses autophagy; a medical composition containing said agent; and a method using said medical composition for treating diseases associated with abnormal apoptosis.

Abstract: A label sheet for cleaning is formed of a label for cleaning including a cleaning layer having a 180° peeling adhesion to a silicon wafer of 0.20 N/10 mm or less after receiving an active energy and an adhesive layer provided on one of surfaces of said cleaning layer, and a separator on which the label is removably provided through the adhesive layer.

Abstract: The present invention relates to a crosslinked gelatin support, in which a surface of a crosslinked gelatin is negatively charged and has a zeta potential in ethanol of from ?3 to ?50 mV, and a support for controlled release of a physiologically active substance, including: the crosslinked gelatin support; and a physiologically active substance adsorbed and retained on and/or inside the crosslinked gelatin support.

Abstract: A label sheet for cleaning is formed of a label for cleaning including a cleaning layer having a 180° peeling adhesion to a silicon wafer of 0.20 N/10 mm or less after receiving an active energy and an adhesive layer provided on one of surfaces of said cleaning layer, and a separator on which the label is removably provided through the adhesive layer.

Abstract: Provided is a pressure-sensitive adhesive composition having antistatic properties that suppresses peeling electrification voltage when peeled off from a non-antistatic adherend, low adhesive strength at high peeling speeds, adhesive strength high enough to prevent problems such as lifting and unintended separation at low peeling speeds, and an optical film to which a pressure-sensitive adhesive sheet, a surface protective sheet, and a surface protective sheet are attached, each sheet having high transparency. A pressure-sensitive adhesive composition, comprising: 100 parts by mass of a polymer (A) with a glass transition temperature of less than 0° C.; 0.1 to 20 parts by mass of a polymer (B) having a weight average molecular weight of 1,000 or more to less than 100,000 and containing a monomer unit derived from a monomer having a nitrogen-containing structure; and 0.1 to 20 parts by mass of an acidic compound (C) with a pKa of ?12.0 or more to less than 3.5.

Abstract: First and second laminated structures are respectively formed at one surface and the other surface of an insulating layer. A laminate is formed of the first laminated structure, the insulating layer and the second laminated structure. A heat-assisted wiring trace is included in the first laminated structure, and a support substrate and a connection terminal are included in the second laminated structure. The surface of the connection terminal is exposed at the other surface of the insulating layer. A first portion of the laminate including the connection terminal has a thickness smaller than the thickness of second and third portions of the laminate including portions on both sides of the connection terminal.

Abstract: An object is to, in a battery pack device in which battery cells are lined up, provide a thermally conductive member that can reduce the risk of heat being conducted to an adjacent battery cell in order to make the cooling property of each battery cell uniform, and a battery pack device using this thermally conductive member. Provided is a thermally conductive member arranged between battery cells when assembling the battery cells into a battery pack, wherein the thermally conductive member includes thermally conductive layers each having a thermal conductivity of 0.5 W/mK or more provided respectively on both sides of a backing layer having a thermal conductivity of less than 0.5 W/mK. Especially, it is preferred that a resin member forming the backing layer has a flexural modulus of 1 GPa or more.

Abstract: An optical waveguide forming epoxy resin composition is free from a diluent component irrelevant to a curing reaction, and comprises: (A) a liquid epoxy resin; and (B) a photoacid generator; wherein the liquid epoxy resin (A) comprises a liquid epoxy resin represented by the following general formula (1) in a proportion of 40 to 75 wt % based on the overall amount of a resin component: wherein R1 and R2 are each a hydrogen atom or a methyl group; R3 to R6 are each a hydrogen atom, a methyl group, a chlorine atom or a bromine atom; X is a C2 to C15 alkylene group, an ethyleneoxy group, a di(ethyleneoxy) group, a tri(ethyleneoxy) group, a propyleneoxy group, a propyleneoxypropyl group, a di(propyleneoxy)propyl group or a tri(propyleneoxy)propyl group; and n is a natural number and has an average value of 1.2 to 5.

Abstract: A turnover device of a liquid crystal panel which comprises: a panel holding portion including a base, a panel face supporting portion having plural pairs of panel face touching portions to support both panel faces of a liquid crystal panel, a supporting arm of a panel long edge having a long edge touching portion to support a long edge of the panel, and a supporting arm of a panel short edge having a short edge touching portion to support a short edge of the panel; and a driving portion including a rotation shift to form a right angle with a bisector to divide an angle formed by the long edge touching portion and the short edge touching portion, and an actuator for turnover to rotate and drive the rotation shaft.

Abstract: A method for producing a light-emitting diode device includes a step of preparing a sealing layer by sealing in a light-emitting diode with a sealing material; a step of preparing a fluorescent layer by allowing a phosphor-containing resin composition containing phosphor and silicone resin to reach its B-stage; and a step of bonding the fluorescent layer to the surface of the sealing layer.

Abstract: Base insulating layers are formed on a support substrate having a conductive property. The support substrate is etched, to form support substrate board and a plurality of conductive portions in a suspension board. The holding piece and the conductive portions constitute a shape determination unit. The conductive portions have first to fifth conductive portions. The third and fourth conductive portions are spaced apart from each other, and the fifth conductive portion is formed between the third and fourth conductive portions. The first and second conductive portions are respectively formed integrally with one end and the other end of the fifth conductive portion. It is determined whether the first and second conductive portions in the shape determination unit are connected electrically to each other. And it is determined whether the first and third conductive portions are connected electrically to each other.

Abstract: An organic EL device and a method for forming the same, capable of obtaining a high light emission yield and improving long-term stability. The organic EL device is an organic EL device (100) including: a conductive substrate (101); an inorganic insulating layer (102) laminated on the plane of the conductive substrate (101); an organic insulating layer (103) laminated on the inorganic insulating layer (102); and an organic EL element (110) on the organic insulating layer (103); and a sealing material (150) of sealing the organic insulating layer (103) and the organic EL element (110), and the organic insulating layer (103) is arranged inside the sealing material (150).

Abstract: A pressure-sensitive adhesive composition, comprising: (A) a (meth)acryl-based polymer; and (B) an ionic compound comprising an anion component and a cation component, wherein the anion component is at least one of an anion component represented by the general formula (1): (CnF2n+1SO2)2N?,??(1) wherein n is an integer of 3 to 10, and an anion component represented by the general formula (2): CF2(CmF2mSO2)2N?,??(2) wherein m is an integer of 2 to 10.

Abstract: Provided is a removable water-dispersible acrylic pressure-sensitive adhesive composition capable of forming a pressure-sensitive adhesive layer that is superior in antistatic properties (resistance to peeling-induced static build-up), removability, adhesion (adhesive properties), and the ability to prevent an increase in peel strength (adhesive strength) over time and also superior in less-staining properties on adherends, particularly, the ability to prevent white staining on adherends in a high-humidity environment. Also provided is a pressure-sensitive adhesive sheet having a pressure-sensitive adhesive layer made from such a pressure-sensitive adhesive composition. The removable water-dispersible acrylic pressure-sensitive adhesive composition contains an acrylic emulsion polymer including units derived from raw material monomers including at least (A) an alkyl (meth)acrylate and (B) 0.

Abstract: A distillation apparatus which can be automatically replenished with a liquid, does not require a large amount of energy and can be produced at suppressed facility cost is provided. A distillation apparatus 100 for generating distilled water by use of solar heat 72 includes a heat transmissive window 10 that transmits the solar heat 72; a housing 20 that secures the heat transmissive window 10; and a heat absorber 25 that is located in the housing 20 and absorbs the solar heat 74 transmitted through the heat transmissive window 10. The housing 20 includes a first chamber 21 in which the heat absorber 25 is located; and a second chamber 22 connected to the first chamber 21 via a water vapor permeable membrane 40 that allows permeation of water vapor 64 generated in the first chamber 21. An intake opening 50 through which a liquid is introduced is provided below the first chamber 21.

Abstract: A transparent gas barrier film that has excellent gas barrier properties and includes a transparent gas barrier layer having a very low internal stress, and a method for producing the same. The transparent gas barrier film according to the present invention includes: a resin substrate; and a transparent gas barrier layer formed over the resin substrate. The transparent gas barrier layer includes at least one kind selected from the group consisting of metals and metalloids. The transparent gas barrier layer includes a plurality of layers each having a density that changes continuously from high density to low density or from low density to high density and then cycles alternatively from low density to high density or high density to low density, respectively, once or two or more times.

Abstract: A polarizing plate including a polarizer, a UV-shielding layer containing an inorganic fine particle with a bandgap of 3.0 eV or more and a binder resin, and a protective film.