Abstract: A method of manufacturing an electronic device comprises forming a wiring material layer made of aluminum or an aluminum alloy on the surface of an insulating film on a substrate, patterning the wiring material layer by a reactive ion etching treatment with a resist pattern used as a mask so as to form a wiring, and treating the surface of the insulating film including the wiring with an aqueous solution for removing the etching residue, the aqueous solution containing a peroxosulfate, a fluorine-containing compound and an acid for adjusting the pH value and having a pH value of ?1 to 3.

Abstract: An optical glucose sensor chip includes a substrate, a pair of optical elements formed on a surface of the substrate for introducing light into the substrate and for emitting the light from the substrate, and a glucose sensing membrane formed on the surface of the substrate at a position between the optical elements. The sensing membrane includes a color reagent substrate, a first enzyme which oxidizes or reduces glucose, a second enzyme that generates a material which makes the color reagent substrate exhibit color by a reaction with a product obtained by oxidation or reduction of glucose, a nonionic cellulose derivative, and an ionic polymer into which a buffer is incorporated. At least one of the first and second enzymes is coated with the ionic polymer, and the color reagent substrate. The first and second enzymes, the buffer and the ionic polymer are supported by the nonionic cellulose derivative.

Abstract: A fluorometric apparatus capable of configuring to have a small size and operability requiring a simple and easy operation of centrifuging a specimen in a container a rotation center of which is detachably supported by a rotation axis (not shown), exciting the specimen by means of an N2 laser apparatus and an excitation light irradiator for guiding the laser light emitted from the N2 laser apparatus, and receiving fluorescence having two types of wavelengths emitted from antibodies labeled with fluorescent dyes in the specimen in a region separate from the region in which the excitation light is radiated by a predetermined angle by using a photomultiplier tube, obtaining a ratio of light intensity for each wavelength, comparing the obtained ratio with a standard value, and estimating a target protein concentration.

Abstract: It is an object to provide a measuring apparatus and method which can easily measure an amount of a biological component such as glucose without requiring an ordinary person who is to be measured to have special knowledge and techniques. A measuring apparatus according to an embodiment of the present invention uses a biological component sensor including a plate-shaped sensor chip 112 having a biological component sensing function and a sensor chip holding frame 111 for surrounding and holding the sensor chip 112, and the biological component sensor is disposed in a measuring apparatus main body housing 110. A fixed click-shaped engaging member 118 and a movable click-shaped engaging member 119 are disposed on a sensor chip support table 124 fixed to the measuring apparatus main body housing 110, and they fix and support the sensor chip holding frame 111 and the sensor chip can be thus replaced.

Abstract: It is an object to provide an antibody chip and a light source measuring apparatus which are excellent in a reproducibility and a workability of a measurement and can easily be utilized. A light source measuring apparatus (1) includes, as a main structure, a concentration measuring device (2), an antibody chip (3) and a cell washing device (4). The concentration measuring device (2) serves to measure a concentration of an antigen in a specimen solution taken by the antibody chip (3) The cell washing device (4) has solution injecting means constituted by an injecting pump (44), an injecting tube (45), a first solution vessel (46), a second solution vessel (47) and a solution selecting valve (48) and solution discharging means constituted by a plurality of discharging pumps (51), a discharging tube (52), an intake end (52a) and the like.

Abstract: An optical waveguide type biochemical sensor chip includes a light beam transmittable substrate having at least a first optical element that allows light beam to be impinged to the inside and a second optical element that emits light beam from the inside, an optical waveguide layer that is formed on a main surface of the substrate on which at least one of the first and second optical elements is formed, has a thickness of 3 to 300 ?m and is made of a polymer resin material having a higher refractive index than that of the substrate material, and a sensing membrane that is formed on the optical waveguide layer and creates a reaction product having the ability of absorbing the light beam or an evanescent wave of the light beam in response to an introduced specimen.

Abstract: An inspection method using a portable optical inspection apparatus adapted to be driven by a battery and capable of producing an accurate sensing result without being adversely affected by the environmental temperature conditions is disclosed. The light is radiated on a sensor chip for a predetermined length of time and the amount of a substance contained in a specimen placed on a sensing thin film is measured by an optical signal obtained from the sensing chip, using an optical inspection apparatus comprising the sensor chip including a substrate 5, an optical waveguide layer 6 arranged on the substrate and the sensing thin film 7 attached on the surface of the optical waveguide layer, a light source 8 for radiating the light on the sensor chip and a photodetector 9 for receiving and converting the light output from the sensor chip into an electrical signal The light source is turned on and off a plurality of times for a predetermined length of time during which the inspection light is radiated.

Abstract: An optical waveguide type biochemical sensor chip includes a light beam transmittable substrate having at least a first optical element that allows light beam to be impinged to the inside and a second optical element that emits light beam from the inside, an optical waveguide layer that is formed on a main surface of the substrate on which at least one of the first and second optical elements is formed, has a thickness of 3 to 300 ?m and is made of a polymer resin material having a higher refractive index than that of the substrate material, and a sensing membrane that is formed on the optical waveguide layer and creates a reaction product having the ability of absorbing the light beam or an evanescent wave of the light beam in response to an introduced specimen.

Abstract: An optical glucose sensor chip comprises a glass substrate, a first optical element formed on a major face of the substrate for impinging light into the substrate, a second optical element formed on the major face of the substrate for emitting the light to the outside, and a glucose sensing membrane formed on the major face of the substrate situated between the first and second gratings. The glucose sensing membrane comprises a color developer, a first enzyme for oxidizing or reducing glucose, a second enzyme for generating a substance for developing the color developer by reacting with a product of the first enzyme, a film-forming polymer compound, and a cross-linking polymer compound.

Abstract: The method for measuring the concentration of the measuring object uses a sensor chip comprising an optical waveguide layer and an antibody immobilized layer formed on the surface of the optical waveguide layer, which comprises immobilizing the measuring object and an enzyme-labeled antibody labeled with a labeling enzyme on the antibody immobilized layer of the sensor chip having an immobilized antibody, producing a color-developing and precipitating enzyme reaction product by allowing to react a coloring reagent with the labeling enzyme on the antibody immobilized layer to precipitate the enzyme reaction product on the antibody immobilized layer, allowing to totally reflect a light impinged on the sensor chip from the outside at an interface between the optical waveguide layer and the antibody immobilized layer, and observing to a physical value of the totally reflected light.

Abstract: A method of preparing a coating solution for a glucose sensing membrane, the method comprising preserving a first solution containing an oxidizing enzyme or a reducing enzyme of glucose and a reagent for generating a substance for coloring a coloring agent dissolved in a buffer solution, preserving a second solution containing a mixed solution of an alcohol solution of the coloring agent and a solution of a membrane-forming polymer compound, and mixing the first solution and the second solution.

Abstract: A method of manufacturing an electronic device comprises forming a wiring material layer made of aluminum or an aluminum alloy on the surface of an insulating film on a substrate, patterning the wiring material layer by a reactive ion etching treatment with a resist pattern used as a mask so as to form a wiring, and treating the surface of the insulating film including the wiring with an aqueous solution for removing the etching residue, the aqueous solution containing a peroxosulfate, a fluorine-containing compound and an acid for adjusting the pH value and having a pH value of ?1 to 3.

Abstract: An optical waveguide type iontophoresis sensor chip has a substrate having a first hinged plate and a second hinged plate, an optical waveguide plate connected to the first hinged plate and positioned over a first opening delineated in the first hinged plate, and a gel layer fixed on the second hinged plate and covering a second opening delineated in the second hinged plate and configured to contact with the optical waveguide plate through the first opening in case that the substrate is folded.

Abstract: An optical biosensor has a total reflection plate so as to totally internally reflect and transmit an incident light, a first grating and a second grating disposed separately on the total reflection plate, and a sensing membrane that is containing an enzyme and a chromogenic reagent and is sandwiched by the first and second gratings on the total reflection plate.

Abstract: A method of manufacturing an electronic device comprises forming a wiring material layer made of aluminum or an aluminum alloy on the surface of an insulating film on a substrate, patterning the wiring material layer by a reactive ion etching treatment with a resist pattern used as a mask so as to form a wiring, and treating the surface of the insulating film including the wiring with an aqueous solution for removing the etching residue, the aqueous solution containing a peroxosulfate, a fluorine-containing compound and an acid for adjusting the pH value and having a pH value of ?1 to 3.

Abstract: An antigen measuring device has an antibody chip. The antibody chip has a substrate. A pair of gratings are formed on the substrate. An antibody-fixed layer surrounded by a wall is formed between the gratings. A light emitting element emits a light beam toward the first grating. A light receiving element receives the light beam which propagates through the substrate under the antibody-fixed layer and is outputfrom the second grating.

Abstract: A method of manufacturing an electronic device comprises forming a wiring material layer made of aluminum or an aluminum alloy on the surface of an insulating film on a substrate, patterning the wiring material layer by a reactive ion etching treatment with a resist pattern used as a mask so as to form a wiring, and treating the surface of the insulating film including the wiring with an aqueous solution for removing the etching residue, the aqueous solution containing a peroxosulfate, a fluorine-containing compound and an acid for adjusting the pH value and having a pH value of −1 to 3.

Abstract: An apparatus in which a magnetic field is generated by an excitation coil provided in the outside of a conduit and electromotive force generated in electrodes attached on the conduit is detected to thereby measure a flow rate of a fluid flowing in the conduit, in which the conduit is made thinner in a manner so that a ratio of the axial length of the conduit to the inside diameter of the conduit is set to a value within a range of from 0.2 to 1.0, and in which correction data previously analyzed in accordance with magnetic permeability and inside surface conductivity of a mate piping to which the conduit is to be connected are stored so that a detection signal from the electrodes is corrected on the basis of the correction data to thereby measure the flow rate of the fluid flowing in the conduit.

Abstract: A ceramic conduit with a metal outer tube is joined to bonding rings through insert members between end surfaces of the rings and annular bonding surfaces, with the annular bonding surface being not parallel to the axis of the conduit and the insert member being bonded to the ring and conduit. The rings are joined to the outer tube through welds between forward ends of annular protrusions provided in end surfaces which are the reverse surfaces of the surface bonded with the insert members and the forward ends of annular protrusions provided in axial end surfaces of the outer tube. The inner periphery of the outer tube is fitted on the outer periphery of the conduit with a small gap therebetween. The rings are bonded to the conduit with the insert members by being pressed against the conduit in the axial direction of the conduit and only a small quantity of heat is transmitted from the welds to other portions.

Abstract: An electromagnetic flow meter which performs a zero-point and span calibrating operation and an initial setting verifying operation in an inspection mode which is inserted on an interrupt basis at a certain frequency during a measurement mode. Flow measurement data in each inspection mode is calculated using measurement data preceding and/or following the inspection mode, whereby an inspection operation is implemented without leaving the flow measurement data indeterminate in each period of the inspection mode.