Abstract: The present invention provides a microchannel reactor that is used as a new reaction device capable of greatly expanding the utilization range of chemical reactions occurring in microspaces. A solution of a soluble linear polymer containing ligands and a solution of a soluble transition metal molecule are individually introduced into a microreactor, the flows are merged inside a microchannel and a metal polymer membrane of a complex formed is generated at the interface of the flows. The membrane is used as a solid catalyst, and various reactions such as carbon-carbon bond formation reactions, oxidation reactions and the like can be conducted at extremely fast reaction rates.

Abstract: A plurality of elements can be analyzed simultaneously with high sensitivity using a microchip. The microchip (1) comprises a substrate (30), a channel (23) formed in the substrate (30), and an analyzing part (10) consisting of a part of flat surface of the substrate (30), where the outlet of the channel (23) is formed as an opening (9c) and measurement object liquid overflowed from the opening (9c) stays on the flat surface of the substrate (30) to become a sample of analysis. The measurement object liquid is made to overflow as a sample of analysis to the analyzing part (10) using the microchip (1) and then the sample of analysis is preferably dried before a primary X-ray is made to enter under conditions of total reflection and fluorescent X-rays are detected.

Abstract: A slide valve apparatus includes a first member having a first fluid channel for allowing a fluid to flow therethrough, a second member sliding along the first member and having a second fluid channel formed in a manner to communicate with the first fluid channel, and a first elastic membrane formed in the sliding surface along which the second member and the first member slide relative to each other and having a first communicating hole communicating with the first fluid channel. In manufacturing the slide valve apparatus, a gas is spurted from the open edge of the first fluid channel in at least a stage between the start up of the step of forming the elastic membrane and the end of the step of baking the elastic membrane so as to form in the elastic membrane the communicating hole communicating with the first fluid channel.

Abstract: A plurality of elements can be analyzed simultaneously with high sensitivity using a microchip. The microchip (1) comprises a substrate (30), a channel (23) formed in the substrate (30), and an analyzing part (10) consisting of a part of flat surface of the substrate (30), where the outlet of the channel (23) is formed as an opening (9c) and measurement object liquid overflowed from the opening (9c) stays on the flat surface of the substrate (30) to become a sample of analysis. The measurement object liquid is made to overflow as a sample of analysis to the analyzing part (10) using the microchip (1) and then the sample of analysis is preferably dried before a primary X-ray is made to enter under conditions of total reflection and fluorescent X-rays are detected.

Abstract: In a microchip which enables cell cultivation and accurate cell count measurement, fine particles affixed with cells are trapped within a passage by making the minimum width of a solution and fine particle inlet into a cell culture portion larger than the maximum diameter of the fine particles, and making the width of an outlet smaller than the maximum diameter of the fine particles.

Abstract: An integrated structure of multilayer flow microchannel, which comprises a plurality of microchannels in which parallel multilayer flow that involves the interface of fluids is formed, arranged on various positions of a substrate, wherein each of the multilayer flow microchannels is communicated with another multilayer flow microchannel. A plurality of unit operations can be carried out continuously with high efficiency on a microchip, enabling high-degree microanalysis or precise chemical synthesis using the highly integrated structure of multilayer flow microchannel.

Abstract: There are provided a chip for micro chemical systems which can obviate the need of alignment at every measurement and can improve the measurement sensitivity and reduce the variation of measurement, and a micro chemical system using the chip. A thermal lens spectrometry system 10 comprises: a micro chemical chip 2 having a groove 1 into which a sample solution is injected; a rod lens 3 disposed on the micro chemical chip 2 at a predetermined spacing above the groove 1; a lens holder 9 disposed above the micro chemical chip 2; a securing section 4; an optical fiber 5; a ferrule 6 secured by the securing section 4 above the rod lens 3; a light source unit 7 connected to the optical fiber 5, and a detection device 8 disposed below the micro chemical chip 2. The securing section 4 comprises a seating 32 laid on the micro chemical chip 2, and a metal split sleeve 33 for fitting the ferrule 6 and the lens holder 9 at the outside thereof.

Abstract: There are provided a microchemical system capable of acquiring a highly accurate TLM output value and a method for calculating TLM output thereof. A microchemical system 1 comprises: a microchemical chip having a channel with a depth t in which a sample flows; an exciting light source 13 adapted to irradiate the sample with an exciting light through an objective lens 10 with a numerical aperture NA; a detecting light source 14 adapted to irradiate the sample with a detecting light coaxially with the exciting light through the objective lens 10; and a PD adapted to receive a transmitted light when the detecting light transmits the sample before and after formation of a thermal lens 12. When a TLM output is calculated in the microchemical system 1 on the basis of a received light amount of the PD, the depth t (?m) is set to the range of 75?t?300, the numerical aperture NA is set to the range of 0.04?NA?0.

Abstract: A desktop thermal lens microscope apparatus can detect a chemical reaction in a micro spatial region within a glass chip, or the like, more conveniently and at any given place. The desktop thermal lens microscope apparatus has small laser light sources such as semiconductor lasers as an excitation light source and a probe light source. Since an excitation light source system (P), a probe light source (Q), and a thermal lens microscope optical system (R, S, T) are integrally provided in a single housing, the size of the desktop thermal lens microscope is as small as that of a desktop microscope.

Abstract: An enzyme immunoassay chip having, as micro channels, a reaction liquid leading-in flow passage part, a reaction flow passage part, and detection flow passage part sequentially disposed on a substrate continuously to each other, comprising an installed part for bead-bodies supporting antibodies and the bead-body flow stopping part formed in the micro channel of the reaction flow passage part, wherein enzyme reactive product flowing beyond the flow stopping part can be analyzed by using the chip.

Abstract: An organic synthesis microreactor mixes fluids in a very narrow space and causes the fluids to react in multiple stages. The reactor consists of an introduction portion and a reaction portion disconnectably connected. The introduction portion introduces reagents from channels and, if necessary, mixes and reacts the reagents. The reaction portion accepts a reagent or reaction liquid from the introduction portion and mixes and reacts the reagent or reaction liquid with other reagent.

Abstract: The present invention provides an immunoassay method easier in operation and smaller in fluctuation of reaction. The immunoassay method according to the present invention is an immunoassay method, which employs a sandwich method using a microchip having an antibody immobilized in the micro-flow channel thereof, comprising feeding a fluid mixed with a labeled antibody and a specimen into the micro-flow channel.

Abstract: A new technical means is provided that can be produced and prepared at low cost, and in which the generation of stagnation in the flow of a liquid sample can be suppressed, microbeads can be smoothly and simply injected, filled and transported and the generation of dust can be also suppressed and a new extracting method for nucleic acid using the new technical means is provided. A microchip has a microchannel (3) formed by groove parts (11, 21) provided in connecting surfaces of upper and lower substrates (1, 2). In the microchannel (3), a gap part (31) in which the section of the channel is reduced is provided in a central part upward and downward, rightward and leftward, or upward and downward and rightward and leftward the section thereof, and microbeads are checked.

Abstract: A microchemical system is provided, which can improve the working efficiency of the user. In the microchemical system 1, a plate-shaped element 10 that constitutes an optical unit 1a has an optical wave guide path 20, which acts as an optical path for exciting light and detecting light. An irradiation lens 30 is disposed at an end of the optical wave guide path 20 downstream in the direction of travel of the exciting light and the detecting light, and a channel 40 is located downstream of the irradiation lens 30, through which a liquid containing a sample flows. A detector 50 is disposed at an end of the plate-shaped element 10 downstream of the channel 40 and detects the detecting light for analysis of the sample.

Abstract: A small and portable microscope for ultramicroanalysis has an excellent spatial resolution and fixed position analyzing ability. The microscope has at least a part of an excitation light source, a part of a probe light source and a part of a thermal lens microscope optical system arranged integrally in a device body. The device body also includes an analyzing cell and substrates supporting the analyzing cell.

Abstract: A slide valve apparatus includes a first member having a first fluid channel for allowing a fluid to flow therethrough, a second member sliding along the first member and having a second fluid channel formed in a manner to communicate with the first fluid channel, and a first elastic membrane formed in the sliding surface along which the second member and the first member slide relative to each other and having a first communicating hole communicating with the first fluid channel. In manufacturing the slide valve apparatus, a gas is spurted from the open edge of the first fluid channel in at least a stage between the start up of the step of forming the elastic membrane and the end of the step of baking the elastic membrane so as to form in the elastic membrane the communicating hole communicating with the first fluid channel.

Abstract: It is an object to provide a photothermal conversion spectroscopic analysis method that enables measurement to be carried out with high sensitivity, and a photothermal conversion spectroscopic analysis apparatus that carries out the method. The photothermal conversion spectroscopic analysis apparatus is comprised of an exciting light source 111, a chopper 112 that is disposed close to the exciting light source 111 in the optical path of exciting light emitted from the exciting light source 111, a mirror 114 that changes the direction of travel of the exciting light, a detecting light source 120, a dichroic mirror 113 that has detecting light from the detecting light source 120 incident thereon and makes the exciting light and the detecting light coaxial, a lens 10 that has a suitable amount of chromatic aberration, and a holder 15 that holds the lens 10 such as to enable adjustment along three axes.

Abstract: For enlarging the application range of samples capable of being treated, decreasing the amount of samples used, preventing deterioration of samples by a change with the passage of time and preventing mixing of samples by diffusion, a micro fluidics system according to the present invention comprises a sample server which stores plural samples and which has sample efflux portions, a microchip for feeding samples to a treating portion through plural sample introducing portions communicating with the sample efflux portions and further through a microchannel, allowing the samples to be subjected to a predetermined treatment, and a sample feeder for feeding the samples stored in the sample server to the sample introducing portions through the sample efflux portions.

Abstract: There is provided a gradient index rod lens unit having a desired chromatic aberration. The gradient index rod lens unit is comprised of two gradient index rod lenses 11 and 12 with different chromatic aberrations and the entire lengths thereof adjusted, which are disposed in series with the optical axes thereof in alignment. The chromatic aberration of the gradient index rod lens unit can be set to a value falling within chromatic aberration ranges inherently possessed by the respective gradient index rod lenses 11 and 12.

Abstract: A small and portable microscope for ultramicroanalysis having an excellent spatial resolution and a fixed position analyzing ability in which at least a part of an excitation light source (3), a part of a probe light source (4) and a part of a thermal lens microscope optical system are arranged integrally in a device body comprising an analyzing cell (1) and substrates (2A), (2B) supporting the analyzing cell (1).