Abstract: A method for sealing an organic EL element, the method including: a step in which a stress relaxation layer is formed by at least applying a polymer material that contains an organic group in the structure to a base material, on which an organic EL element is provided, so as to cover the organic EL element; and a step in which a barrier layer is formed by at least applying an inorganic material to the stress relaxation layer, thereby forming a multilayer sealing film that comprises the stress relaxation layer and the barrier layer.

Abstract: Porous conductive resin is produced by: mixing a hydrogen bond donor compound and a hydrogen bond acceptor compound to produce deep eutectic liquid (DEL); adding conductive materials to the DEL to produce gel; adding resin that is insoluble in the DEL to the gel to produce ink made of the gel dispersed in the resin; forming the produced ink into a formed object having a desired shape; curing the resin in the formed object; and evaporating the DEL in the formed object including the cured resin.

Abstract: An evaluation test apparatus is configured to evaluate or test measurement precision of a biological information measurement device configured to measure biological information. The evaluation test apparatus includes: a function generator configured to generate a plurality of input waveform signals by a predetermined operation; an indenter configured to pressure a piezoelectric element of the biological information measurement device; a vibration driver selected from a motor and a solenoid and configured to vibrate the indenter; and a control board configured to control the vibration driver. The control board includes an adder configured to combine the plurality of input waveform signals generated by the function generator. The vibration driver vibrates the indenter based on a composite waveform signal combined by the adder.

Abstract: Provided is a transparent conductive film-attached glass sheet that is less likely to be broken when produced or used in the form of a roll. A transparent conductive film-attached glass sheet 1 includes: a glass sheet 2; and an amorphous transparent conductive film 3 provided on a principal surface 2a of the glass sheet 2.

Abstract: It is intended to realize a modular soft robot having a high degree of freedom of movement. A voxel 10 constituting at least a portion of a robot comprises: a polyhedral-shaped casing 100 contractable according to discharge of a working fluid from an internal space thereof; and a deformation-regulating member 200 housed in the casing 100 and configured to regulate deformation of the voxel 10 when the working fluid in the casing 100 is discharged, wherein a plurality of the voxels 10 can be coupled together to constitute at least a portion of a robot.

Abstract: A change detecting device includes: a time-series data acquiring unit that acquires time-series data in a period including a first period and a second period after the first period; a vector acquiring unit that acquires first vectors which are pieces of partial time-series data in the first period and second vectors which are pieces of partial time-series data in the second period on the basis of the time-series data acquired by the time-series data acquiring unit; a difference vector acquiring unit that acquires a difference vector related to a combination of a specific first vector among the first vectors and a specific second vector among the second vectors in a plurality of combinations; and a change detecting unit that detects a characteristic change of the time-series data on the basis of a bias in distribution of directions of the plurality of difference vectors acquired by the difference vector acquiring unit.

Abstract: An object of the present invention is to provide a novel method for forming a carbonaceous structure comprising minute carbon bodies such as CNTs. A method for forming a carbonaceous structure on the surface of a substrate, comprising a step of forming a layered structure by at least partially filling a gap between a porous membrane which can hold a dispersion medium and a substrate with a minute-carbon-body dispersion liquid comprising the minute carbon bodies and the dispersion medium, and a step of removing the dispersion medium by at least partially taking the dispersion medium out of the layered structure through the porous membrane and/or the substrate.

Abstract: A living radical polymer that has a low molecular weight distribution and has a specific functional group at least at one end, and a resin-coated pigment has high dispersibility of a resin composition including the living radical polymer, is excellent in properties such as preservation stability, discharge stability, and color developability in a dispersed state, and is suitably used in a pigment dispersion. A living radical polymer has a specific functional group structure, the living radical polymer includes a polymerization initiator-derived specific organic compound moiety at one end or in a backbone of the living radical polymer and is obtained by reacting a radical generator having a specific functional group with at least any end, for example, an iodine end ascribable to a precursor. A living radical polymer composition includes the same; a resin-coated pigment is obtained by coating with the living radical polymer composition; and a method produces the living radical polymer.

Abstract: A method of producing organic-inorganic hybrid infrared absorbing particles includes a dispersion liquid preparing step of preparing a dispersion liquid containing infrared absorbing particles, a dispersant, and a dispersion medium; a dispersion medium removing step of removing the dispersion medium from the dispersion liquid by an evaporation; a raw material mixture liquid preparing step of preparing a raw material mixture liquid containing the infrared absorbing particles collected after the dispersion medium removing step, a coating resin material, an organic solvent, an emulsifying agent, water, and a polymerization initiator; a stirring step of stirring the raw material mixture liquid while cooling; and a polymerizing step of polymerizing the coating resin material after deoxygenation treatment which reduces an amount of oxygen in the raw material mixture liquid.

Abstract: The polycarbonate resin composition according to the present invention includes: 50 to 90% by mass of polycarbonate resin (A); 2.0 to 20% by mass of olefin polymer (B); 5 to 40% by mass of basic magnesium sulfate (C) selected from fibrous basic magnesium sulfate (C-1) and fan-shaped basic magnesium sulfate (C-2); 0.1 to 8% by mass of at least one (D) selected from a fatty acid metal salt and a fatty acid; and 1 to 20% by mass of elastomer (E).

Abstract: Provided is a boron-containing compound suitable for the material of a blue light-emitting diode and an organic light-emitting diode using the same. The boron-containing compound has a structure represented by the formula (1): X is each independently —NR1—, —CR2R3—, —O— or —S—. In the —NR1— and —CR2R3—, R1 to R3 are each independently hydrogen, deuterium, an alkyl group having 1 to 6 carbon atoms or an aryl group having 5 to 30 core atoms, and R2 and R3 may connect with each other to form a ring. Cy1 is an aryl group having 5 to 30 core atoms. All or part of hydrogen atoms in the formula (1) may be substituted by deuterium, a halogen, an alkyl group having 1 to 6 carbon atoms, an aryl group having 5 to 30 core atoms, a substituted or unsubstituted silyl group, a substituted or unsubstituted amino group, or cyano group.

Abstract: Provided is a method which is capable of three-dimensionally forming a food into a desired shape such as a complicated shape or a hollow shape, using a starch powder as a raw material. The method for three-dimensionally forming a food using a starch powder as a raw material comprises the steps of: mixing a starch powder and water together to provide a mixture of the starch powder and the water; irradiating a part of the mixture with laser light to cause starch particles of the starch powder to swell due to the water to form swollen starch particles, followed by causing the swollen starch particles to gelatinize to form gelatinized starch particles, and causing the gelatinized starch particles to gelate, thereby obtaining gelated starch: and extracting the gelated starch from the mixture, wherein the step of irradiating includes irradiating the mixture with the laser light, according to a pattern predetermined based on a three-dimensional shape of a food.

Abstract: To provide a composition having a very low refractive index, an organic photoelectronic element using the composition, and simple methods for producing such a composition and an organic photoelectronic element. A composition comprising a fluorinated polymer, an organic semiconductor material and a dopant.

Abstract: To provide an organic photoelectronic element excellent in light emitting characteristics and long-term reliability. The organic photoelectronic element comprises a substrate, an anode provided on the substrate, a cathode facing the anode, a light emitting layer disposed between the anode and the cathode, a hole transport layer disposed between the light emitting layer and the anode, and an electron blocking layer provided in contact with the light emitting layer and the hole transport layer between the light emitting layer and the hole transport layer, wherein the hole transport layer contains a fluorinated polymer and an organic semiconductor material, and has a refractive index in the wavelength range of from 450 nm to 800 nm, of at most 1.

Abstract: An evaluation test apparatus is configured to evaluate or test measurement precision of a biological information measurement device configured to measure biological information. The evaluation test apparatus includes: a function generator configured to generate a plurality of input waveform signals by a predetermined operation; an indenter configured to pressure a piezoelectric element of the biological information measurement device; a vibration driver selected from a motor and a solenoid and configured to vibrate the indenter; and a control board configured to control the vibration driver. The control board includes an adder configured to combine the plurality of input waveform signals generated by the function generator. The vibration driver vibrates the indenter based on a composite waveform signal combined by the adder.

Abstract: A piezoelectric sensor configured to detect a change of pressure from a living body in a predetermined location includes: a pair of electrodes spaced from one another and formed to spread as a sheet; a pressure-sensitive layer disposed between the pair of electrodes and configured to generate electric charge in response to the change of pressure; a pair of terminals connected to the pair of electrodes, respectively, and configured to output an electrical signal supplied from the pair of electrodes in response to the change of pressure of the living body. An edge of at least one of the pair of electrodes extending toward the pair of terminals is disposed to protrude outside the pressure-sensitive layer, and the electrical signal propagates through the edge and is outputted from the pair of terminals.

Abstract: To provide an organic photoelectronic element, of which the external quantum efficiency is improved, the power consumption is low and the service life is prolonged. The organic photoelectronic element comprises a substrate, an anode provided on the substrate, a cathode facing the anode, a light emitting layer disposed between the anode and the cathode, and a hole transport layer provided in contact with the light emitting layer between the light emitting layer and the anode, wherein the hole transport layer contains an organic semiconductor material and a fluorinated polymer, and at the surface of the hole transport layer in contact with the light emitting layer, the fluorinated polymer is present.

Abstract: A polycarbonate resin composition includes: 50 to 90% by mass of polycarbonate resin (A); 2 to 30% by mass of acrylonitrile-butadiene-styrene copolymer resin (B); 5 to 40% by mass of at least one basic magnesium sulfate (C) selected from fibrous basic magnesium sulfate (C-1) and fan-shaped basic magnesium sulfate (C-2); 0.1 to 8% by mass of at least one (D) selected from a fatty acid metal salt and a fatty acid; and 1 to 20% by mass of elastomer (E).

Abstract: An object of the present invention is to provide a novel method for controlling enzyme productivity of a microorganism. A pulsed electric field is applied to a microorganism to control the enzyme productivity of the microorganism.

Abstract: A living body detection device configured to detect a presence of a living body in a predetermined location. The living body detection device includes a piezoelectric element configured to detect a pressure change in the predetermined location, and a processor configured to: calculate multiple pieces of living body information, based on the pressure change detected by the piezoelectric element; calculate a composite index which compositively indicates that the multiple pieces of living body information are caused by the living body, based on the calculated multiple pieces of living body information; and determine whether there is or not the living body in the predetermined location, based on the calculated composite index.