Embodiments of the disclosure relate to chemical analysis systems, including autosampler systems. In some embodiments, an autosampler system can analyze gas phase samples using a single inlet for better consistency. The autosampler system can move the sample container closer to the sample introduction/preconcentration system prior to accessing the contents of the container to reduce exposure of the sample to reactive surfaces. The autosampler system is able to couple the sample containers to a sampling wand automatically, thereby eliminating the need to pre-attach each container using a gas transfer line. The autosampler system can be disposed on top of a chemical analysis system (e.g., a GC or GCMS), thereby conserving laboratory bench space. In some embodiments, the modules (e.g., sample trays, thermal conditioning systems, support legs) of the autosampler system can be coupled to the autosampler system using clamps that include magnetic codes associated with autocalibration information.

A micro-vial for handling micro-volume of sample fluids. The interior wall defined in the vial has a cylindrical sample section, a wider cylindrical alignment section, a tapered or conical guide section, and a relatively large cylindrical body section, arranged in sequence in that order along the center axis of the vial. The sample section holds a small volume of a sample fluid and receives the tip end of a capillary tube. The alignment section has a larger diameter than the sample section, receiving a cylindrical support that coaxially supports the relatively fragile capillary tube. The tip of the capillary tube dips into the micro-volume of sample fluid held in the sample section. The conical section guides the capillary tube and the support tube into the alignment section and the tip of the capillary tube into the sample section.

A sample introduction device 100 includes a heating unit 102, an ultraviolet irradiation unit 103, and a sample supply part 106. The heating unit 102 vaporizes a sample 22 by heating externally a container 2 in which the sample 22 is enclosed. The ultraviolet irradiation unit 103 causes ultraviolet rays to pass through the container 2 and irradiates the sample 22 with the ultraviolet rays. The sample supply part 106 supplies the sample vaporized in the container 2 to a gas chromatograph 1 side.

A sample introduction device 100 includes a heating unit 102, an ultraviolet irradiation unit 103, and a sample supply part 106. The heating unit 102 vaporizes a sample 22 by heating externally a container 2 in which the sample 22 is enclosed. The ultraviolet irradiation unit 103 causes ultraviolet rays to pass through the container 2 and irradiates the sample 22 with the ultraviolet rays. The sample supply part 106 supplies the sample vaporized in the container 2 to a gas chromatograph 1 side.

A gas chromatograph with column recognition technology system for the column includes a column and the column recognition technology system for the column. The column is configured for gas chromatography. The column includes column parameters associated with the column. The column recognition technology system may be configured to auto-recognize the column in the gas chromatograph device. Wherein, the column recognition technology system may be configured to auto-recognize the column parameters associated with the auto-recognized column.

A gas chromatograph with column recognition technology system for the column includes a column and the column recognition technology system for the column. The column is configured for gas chromatography. The column includes column parameters associated with the column. The column recognition technology system may be configured to auto-recognize the column in the gas chromatograph device. Wherein, the column recognition technology system may be configured to auto-recognize the column parameters associated with the auto-recognized column.

A gas chromatograph with a removable column holder includes a column and a removable column holder. The column is configured for gas chromatography. The removable column holder houses the column. The removable column holder is configured to be removable from the gas chromatograph device with the column. The removable column holder houses only the column. The removable column holder is configured to allow removing and interchanging of the column within the removable column holder. The removable column holder is configured to protect the column within the column holder from mechanical damage and contamination due to handling. The removable column holder is configured to allow a user to install the column into the gas chromatograph without the need for tools. The removable column holder is also configured to reduce the possibility of error when installing the column.

A gas chromatograph with a removable column holder includes a column and a removable column holder. The column is configured for gas chromatography. The removable column holder houses the column. The removable column holder is configured to be removable from the gas chromatograph device with the column. The removable column holder houses only the column. The removable column holder is configured to allow removing and interchanging of the column within the removable column holder. The removable column holder is configured to protect the column within the column holder from mechanical damage and contamination due to handling. The removable column holder is configured to allow a user to install the column into the gas chromatograph without the need for tools. The removable column holder is also configured to reduce the possibility of error when installing the column.

The present invention relates to a needle assembly comprising a needle, a needle housing, wherein the needle housing comprises at least one aligning component. The present invention also relates to a needle receiving assembly comprising a fluid conducting element and a fluid conducting element housing, wherein the fluid conducting element housing comprises at least one aligning component. Additionally, the present invention relates to connection assemblies, samplers and systems that can comprise the needle assembly and the needle receiving assembly.

An automatic sample introduction device includes a needle, a sample loop, a mixer and a suction injection switch mechanism. The mixer is provided between the needle and the sample loop. The suction injection switch mechanism sequentially sucks first and second fluids into the sample loop through the needle and the mixer and injects the first and second fluids held in the sample loop into a predetermined injection port. A chromatograph includes the automatic sample introduction device having the above-mentioned configuration, an analysis column and a detector. The analysis column is connected to the injection port of the automatic sample introduction device, and the detector is connected to the analysis column.