An object of the present invention is to provide a sealing method using a cover film where a problem of odor is not likely to occur and quick drying properties and sealability are high.

The sealing method according to the present invention is a sealing method that is performed using at least a cover film and a sealing solvent, the cover film including a polymer layer provided on a transparent support, in which the sealing solvent is a solvent including at least one kind selected from the group consisting of an ester, an alcohol, a ketone, an ether, and an aromatic hydrocarbon, in a case where the sealing solvent is an ester, an alcohol, a ketone, or an ether, a boiling point of the sealing solvent is 80° C. to 170° C., and in a case where the sealing solvent is an aromatic hydrocarbon, a boiling point of the sealing solvent is 150° C. to 170° C.

A method for conducting environmental sampling includes determining to environmentally sample a particular paper transit ticket for a specific residue. Using an automated ticket device, at least one chemical reagent is applied to the particular paper transit ticket. The chemical reagent is selected based on the specific residue. The particular paper transit ticket is collected after the particular paper transit ticket was used as a fare media within a transit system. The at least one chemical reagent is analyzed to determine whether any of the specific residue is present.

A method and apparatus for automatically transferring sections from a sample block to a tape and for transferring select sections to a slide. A tissue storage system for storing cut sections on the tape and digital storage system for storing photos and other information during the transfer of the sections can also be provided, thereby creating a tissue repository and data repository for future use.

The present invention relates to a test film for detecting surface particles in a clean room in order to prevent inferior products by measuring the contamination level of the clean room using the surface particles. The present invention provides a test film for detecting surface particles in a cleanroom, the test film comprising a substrate which has a predetermined thickness and is formed of a transparent synthetic resin material; a first adhesive layer which is formed at one side of the substrate and collects the surface particles; a release film which is adhered to the first adhesive layer and is separated from the first adhesive layer when the surface particles are collected; a second adhesive layer which is formed at the other side of the substrate; and a protective film which is adhered to the second adhesive layer so as to protect the substrate and has gradations indicated thereon. According to the present invention, there is an effect in that it is possible to easily and quickly check whether or not a clean room is contaminated by collecting, on the adhesive layer-applied surface of a substrate to which an adhesive is applied, surface particles adhered to an object to be measured, and then measuring the number, size, distribution, etc. of the surface particles with the naked eye or using instruments such as a light, a magnifier, a microscope, or the like.

An elution apparatus and a detection apparatus are described. The elution apparatus includes: a sample trap for trapping a sample; and one or more pumps and/or valves to move a liquid eluent and a liquid eluate, wherein the eluate includes an extracted portion of the sample that is extracted by the eluent. The detection apparatus includes: a capillary having a low-voltage (LV) end portion to receive a sample; and a conductivity detector coupled to a high-voltage (HV) end portion of the capillary to generate signals based on conductivity of a monitored portion of the capillary in the HV end portion, wherein the conductivity detector is electrically isolated from the LV end portion.

Systems and methods for monitoring air particulate matter are provided herein that capture particles from the air for analysis. Particles are captured using electrostatic and/or mechanical means to deflect particles toward a substrate. Electrostatic precipitation causes charged carriers to deflect towards a charged substrate. Filtration-based means employ filters and/or fibers to capture particles from air flowing therethrough. A sensor such as a camera is used to read the captured particles. An illumination source directs light towards the substrate, causing the particles to scatter light, which the sensor can detect and derive information or imaging therefrom, which can also be used for further particle or pollution analyses. The substrate can be replenished using electrostatic techniques such as reverse electrostatic force, or mechanical means such as cleaning using a brush or replacing a tape substrate. Dynamic PM monitoring detects and makes adjustments such as those related to air volume, imaging characteristics and substrate replenishment.

A system for measuring air quality, including a housing having an inlet, and outlet, and defining an air pathway therebetween, an air pump operationally connected in fluidic communication with air inlet and outlet for urging along the air flow pathway, a particle collector having an adhesive side positioned in the air flow pathway, and an electronic controller operationally connected to the optical sensor assembly for sending control signals to the optical sensor assembly and for receiving data from the optical sensor assembly. The system also includes an optical sensor assembly positioned for optical interrogate the particle collector, and further including a light source positioned to shine on the particle collector and an optical sensor positioned to receive light travelling from the particle collector.

Provided are: a biological tissue thin slice sample for imaging which is prepared for a mass spectrometer which can eliminate physical and chemical influences and can adhesively support a thin frozen slice of a hard tissue or a large biological tissue even at low temperatures; and a method for producing the sample. The present invention relates to a biological tissue thin slice sample having a biological tissue adhering to a conductive adhesive film. The electrical resistance value between two points spaced apart by 75 mm or more on the surface of the conductive adhesive film to which the biological tissue adheres is 1.0×10.sup.−2Ω or more and less than 2.0×10.sup.7Ω, and the median value of a glass transition temperature range of an adhesive of the conductive adhesive film determined by DSC measurement is −150° C. to −40° C. The present invention also relates to a method for producing the sample.

According to one embodiment, a chemical sensor includes a sensor element. The sensor element includes a sensitive film and a treatment material. Physical properties of the sensitive film vary as bonding of a target substance to the sensitive film. The sensor element is configured to detect the variation in the physical properties. The treatment material is configured to carry out a treatment onto the target substance before the target substance bonds to the sensitive film. The treatment enhances the variation in the physical properties as compared to a case without the treatment.

Provided is a method for fixing particles on a two-dimensional filter medium with open pores. The particles are to be fixed on the upper side of the filter medium. The method involves contacting the particles with an adhesive solution from the lower side of the filter medium through the pores. The method makes it possible to fix particles in a simple and inexpensive manner to the filter medium, such that subsequent microscopic or SEM/EDX investigation is impaired as little as possible.