Abstract: An inorganic porous carrier including a linker of formula (1), wherein a mode diameter in a pore distribution is 0.04 ?m to 1 ?m, and a predetermined cumulative pore volume ratio is 30% or less [a bond * represents a linkage to the oxygen atom of a silanol group in an inorganic porous substance; n is an integer; R represents independently of each other an alkyl group containing 3 to 10 carbon atoms which may optionally have a substituent such as an alkoxy group; and L represents a single bond; an alkylene group of 1 to 20 carbon atoms; or an alkylene group containing 2 to 20 carbon atoms which contains —CH2-Q-CH2— group wherein any group Q selected from a group consisting of —O— etc. is inserted into at least one of —CH2—CH2— group constituting the alkylene group]; and a method for preparing a nucleic acid using the same.

Abstract: A battery packaging material has a very thin aluminum alloy foil with a thickness of not more than 40 ?m, in which pinholes or cracks are unlikely to occur during molding, which has excellent moldability and appearance after molding, which is unlikely to be erroneously determined to be a defective product, and which makes highly accurate defect determination possible. The battery packaging material includes a stacked member provided with at least, in this order: a base material layer; an aluminum alloy foil layer; and a heat sealable resin layer, wherein: the aluminum alloy foil layer has a thickness of not more than 40 ?m; the aluminum alloy foil layer is an aluminum alloy conforming to JIS standard A8021; and the aluminum alloy has a maximum crystal grain size of not more than 25 ?m, and an average crystal grain size of not more than 10 ?m.

Abstract: During automated valet parking, when a parking facility is not spacious it is impossible to avoid null-point positions. Therefore, this vehicle control device is equipped with: a wireless communication unit for acquiring, from a control center by means of wireless communication, a null point indicating a position at which wireless communication is poor in a parking facility, and instruction information for controlling a vehicle in the parking facility; and an automatic driving control unit for moving the vehicle until the vehicle has escaped a null point and then stopping the vehicle, when the instruction information acquired by the wireless communication unit is an instruction for stopping the vehicle and the instructed stopping position is a null point.

Abstract: A battery packaging material has a very thin aluminum alloy foil with a thickness of not more than 40 ?m, in which pinholes or cracks are unlikely to occur during molding, which has excellent moldability and appearance after molding, which is unlikely to be erroneously determined to be a defective product, and which makes highly accurate defect determination possible. The battery packaging material includes a stacked member provided with at least, in this order: a base material layer; an aluminum alloy foil layer; and a heat sealable resin layer, wherein: the aluminum alloy foil layer has a thickness of not more than 40 ?m; the aluminum alloy foil layer is an aluminum alloy conforming to JIS standard A8021; and the aluminum alloy has a maximum crystal grain size of not more than 25 ?m, and an average crystal grain size of not more than 10 ?m.

Abstract: A resin composition capable of securely adhering multiple members in a short time without having to establish a long aging process. The resin composition including: (1) a urethane (meth)acrylate; (2) at least one selected from a group of (meth)acrylates having a phosphate group, (meth)acrylic silane coupling agents, and (meth)acrylates having an isocyanate group; and (3) a (meth)acrylate having an epoxy group.

Abstract: A resin composition capable of securely adhering multiple members in a short time without having to establish a long aging process. The resin composition including: (1) a urethane(meth)acrylate; (2) at least one selected from a group of (meth)acrylates having a phosphate group, (meth)acrylic silane coupling agents, and (meth)acrylates having an isocyanate group; and (3) a (meth)acrylate having an epoxy group.

Abstract: A thermoelectric conversion material contains a mixed oxide containing Zn, Ga, and In. The thermoelectric conversion material is one in which the mixed oxide further contains Al. The thermoelectric conversion material is one in which the relative density of the mixed oxide is not less than 80%. The thermoelectric conversion material is one in which at least a part of a surface of the mixed oxide is coated with a film. A thermoelectric conversion module is provided with a plurality of n-type thermoelectric conversion materials, a plurality of p-type thermoelectric conversion materials, and a plurality of electrodes electrically serially connecting the p-type thermoelectric conversion materials with the n-type thermoelectric conversion materials in an alternate arrangement, and at least one material of the plurality of n-type thermoelectric conversion materials is the aforementioned thermoelectric conversion material.

Abstract: A thermoelectric conversion material includes a complex oxide containing Zn, Al, Ga, and B. The thermoelectric conversion material is one in which a ratio of a molar amount of B to a total molar amount of Zn, Al, Ga, and B is not less than 0.0001 and not more than 0.01. The thermoelectric conversion material is one in which the relative density of the complex oxide is not less than 95% The thermoelectric conversion material is one in which at least a part of a surface of the complex oxide is coated with a film. A thermoelectric conversion module is provided with a plurality of n-type thermoelectric conversion materials, a plurality of p-type thermoelectric conversion materials, and a plurality of electrodes electrically serially connecting the p-type thermoelectric conversion materials and the n-type thermoelectric conversion materials in an alternate arrangement, and at least one material of the plurality of n-type thermoelectric conversion materials is the aforementioned thermoelectric conversion material.

Abstract: When detecting fluorescence of a bead chip array, reflected light from a bead is detected at the same time, so as to recognize the bead position. The reflected light can be detected in a similar manner for all beads, regardless of the presence or absence of a fluorescent substance. If the positions of all beads are detected, accurate detection can be achieved by quantifying only the fluorescence at the detected positions. The fluorescence wavelength alone is detected by a first detector using a wavelength selection filter. Other wavelengths are detected by a second detector, thereby obtaining the reflected light. Data on the reflected light is processed into an image for obtaining the bead profile, the bead position is recognized by detecting the center position based on the profile, and the fluorescence is quantified based on the bead position.

Abstract: An apparatus and a method for arraying beads that allow a bead array having been difficult in mass production to be manufactured easily and accurately are provided. Beads are once arrayed in a separate container using an inclined bead array apparatus while controlling the number of beads to be inserted simply by the use of a bead control rod. When the whole arraying is completed, the arrayed beads are transferred onto a plate for use in an actual reaction.

Abstract: The present invention is directed to provide a preparation chip system having a simpler configuration and improved reliability while addressing the case where a plurality of reagents have to be fed as in a preparation of extracting DNA from a sample solution. The preparation chip system includes a sample chamber, a dissolving solution chamber, a cleaning solution chamber, an eluting solution chamber, a mixing passage connected to the sample chamber and the dissolving solution chamber and mixing the sample and the dissolving solution with each other, a carrier part connected to the mixing passage, a waste chamber connected to the carrier part via a holding passage, a collection chamber holding the eluting solution passed through the carrier part, and a plurality of resistive materials forming a passage resistor disposed in a first passage connecting the cleaning solution chamber with both the mixing passage and the carrier part.

Abstract: A reaction apparatus is provided with a reaction chip (50) for setting plural temperature regions and including a reaction channel (59) formed over these temperature regions, a pump for supplying a reaction liquid to a reaction channel of the reaction chip (50), a control device for controlling supply of the reaction liquid, and a heater for heating each of the temperature regions of the reaction chip (50) to the preset temperature. The reaction chip (50) is provided with a vacuum shielding layer (62) at the boundaries for separating each of the temperature regions. Accordingly, the reaction apparatus assures uniform and stable reaction within a short period of time.

Abstract: In a disc changer in which any one is selected from a set of disc-shaped recording media (2) stored in a disc compartment (3) and signals are written and/or read to and/or from the selected disc-shaped recording medium (2), resin layers (192), (194) and (195), softer than the disc-shaped recording medium (2) in a recording and/or playback apparatus (6) are formed on a pair of disc holding members (89) holding the selected disc-shaped recording medium (2) rotatably while chucking the latter and a disc tray (193) on which each of the disc-shaped recording media stored in the disc compartment (3) is placed. The resin layers assure to prevent the disc-shaped recording medium (2) from being damaged due to contact with the disc holding members (89) and disc tray (193).

Abstract: There is provided an inspection chip capable of performing a number of solution feeding processes promptly and accurately. The inspection chip has one continuous flow path comprising a reaction flow path for accommodating a plurality of beads with immobilized probes of types different each other, a first and second solution holding flow path for holding a plurality of solutions each separated by an air gap. The solution is moved from one solution holding flow path to other solution holding flow path via a reaction flow path by utilizing pressure difference.

Abstract: When detecting fluorescence of a bead chip array, reflected light from a bead is detected at the same time, so as to recognize the bead position. The reflected light can be detected in a similar manner for all beads, regardless of the presence or absence of a fluorescent substance. If the positions of all beads are detected, accurate detection can be achieved by quantifying only the fluorescence at the detected positions. The fluorescence wavelength alone is detected by a first detector using a wavelength selection filter. Other wavelengths are detected by a second detector, thereby obtaining the reflected light. Data on the reflected light is processed into an image for obtaining the bead profile, the bead position is recognized by detecting the center position based on the profile, and the fluorescence is quantified based on the bead position.

Abstract: A test chip, which allows a number of solution delivery steps much faster and accurate is provided. The test chip incorporates a sample flow path for containing a sample solution, a reaction flow path for inducing a predetermined reaction with the sample solution, a waste drain path for receiving the used sample, and the washing solution flow paths for containing washing solutions. The reaction flow path contains a plurality of beads having probes of mutually different types fixed thereon. The sample flow path, washing solution flow paths, and sample waste drain path have their respective solution detector units. The solution detector unit detects whether the solution is fed to the path. The detector units adjoiningly provided in the adjacent paths are arranged collinearly.

Abstract: A method for producing a capillary bead array comprises the steps of: dispensing beads into a liquid pool, outside a capillary, having a depth of almost the same length as the particle diameter of a bead; leveling the excessive beads by moving a leveling member which is in contact with and relatively capable of be moved to the liquid pool to remove excessive beads that the liquid pool cannot contain; aligning the beads in the liquid pool one- or two-dimensionally; bonding adjacent individual beads to each other; producing a structure having the plurality of beads bonded and aligned one- or two-dimensionally; removing the structure from the liquid pool; and disposing the structure in the capillary formed of soft resin, so that the beads comprising the plurality of beads retaining the one- or two-dimensional alignment can be introduced simultaneously into the capillary.

Abstract: A method for producing a capillary bead array comprises the steps of: dispensing beads into a liquid pool, outside a capillary, having a depth of almost the same length as the particle diameter of a bead; leveling the excessive beads by moving a leveling member which is in contact with and relatively capable of be moved to the liquid pool to remove excessive beads that the liquid pool cannot contain; aligning the beads in the liquid pool one- or two-dimensionally; bonding adjacent individual beads to each other; producing a structure having the plurality of beads bonded and aligned one- or two-dimensionally; removing the structure from the liquid pool; and disposing the structure in the capillary formed of soft resin, so that the beads comprising the plurality of beads retaining the one- or two-dimensional alignment can be introduced simultaneously into the capillary.

Abstract: An apparatus and a method for arraying beads that allow a bead array having been difficult in mass production to be manufactured easily and accurately are provided. Beads are once arrayed in a separate container using an inclined bead array apparatus while controlling the number of beads to be inserted simply by the use of a bead control rod. When the whole arraying is completed, the arrayed beads are transferred onto a plate for use in an actual reaction.

Abstract: Within an inside of a bead chip forming a reactor flow pass therein, rinsing liquid flow passes are also provided in one body. For the purpose of promoting reaction upon a bead array, a turbulence generator or an flow separation stop guide is provided within the reactor flow pass, in which the beads are received. The bead chip is made of a PDMS (Polydimethylsiloxane: (C2H6SiO)n), thereby enabling the reactor flow pass and the rinsing liquid flow passes to be formed freely in the configurations thereof.