A system and method for performing field-portable GC/MS measurements for the rapid sampling and measurement of high temperature boiling semi-volatile organic compounds in environmental samples, wherein other column bundles have cold spots that may prevent high temperature boiling semi-volatile components from eluting the GC column, this new design may eliminate those cold spots on the GC column.

A method of analyzing a polymer resin comprising: providing a polymer resin sample having two or more polymer components; subjecting the sample to aTREF analysis to yield aTREF elution trace by contacting the sample with aTREF solvent to form sample solution; introducing sample solution into aTREF column and allowing elution of polymer components at different elution rates along the column; eluting from the aTREF column an aTREF eluent comprising the polymer components eluting at different rates; and subjecting the aTREF eluent to IR detection to yield the aTREF elution trace; identifying the components of the sample to yield identified components by comparing the elution trace with an identification library that comprises a plurality of known polymer aTREF elution traces correlated with known polymer components characterized by identifying parameters (density, SCB, crystallization temperature, MI, HLMI, MWD); and quantifying each of the identified components to yield quantified polymer components via chemometric analysis.

Methods and systems are provided herein for on-line preparation of a sample for mass spectrometry. In accordance with various aspects of applicant's teachings, the methods and systems can provide for the reduction of a polypeptide, for example, on a liquid chromatography column and can reduce or eliminate the need to incubate the reducing agent with the polypeptide and/or expose the reduced polypeptide to an alkylating agent.

Methods and systems are provided herein for on-line preparation of a sample for mass spectrometry. In accordance with various aspects of applicant's teachings, the methods and systems can provide for the reduction of a polypeptide, for example, on a liquid chromatography column and can reduce or eliminate the need to incubate the reducing agent with the polypeptide and/or expose the reduced polypeptide to an alkylating agent.

A device for analyzing a gaseous sample including a first housing including a detection assembly housed in the housing including a preconcentrator, a chromatography column and a detector intended to detect the presence of the separated compounds, a sampling assembly including a cartridge that is removable relative to the first housing, a control and processing unit housed in the housing and configured to execute an analysis operating mode capable of generating a first command for the detection assembly to analyze a first gaseous sample, a second command to determine the exceeding of at least one alert threshold and, if an alert threshold is exceeded, a third command for the sampling assembly to take a second gaseous sample.

A device for analyzing a gaseous sample including a first housing including a detection assembly housed in the housing including a preconcentrator, a chromatography column and a detector intended to detect the presence of the separated compounds, a sampling assembly including a cartridge that is removable relative to the first housing, a control and processing unit housed in the housing and configured to execute an analysis operating mode capable of generating a first command for the detection assembly to analyze a first gaseous sample, a second command to determine the exceeding of at least one alert threshold and, if an alert threshold is exceeded, a third command for the sampling assembly to take a second gaseous sample.

A column oven is provided with an inner casing forming an inner space therein, the inner space being configured to adjust a temperature of a separation column for gas chromatography in a state in which the separation column is accommodated in the inner space, a temperature control element provided in the inner space to adjust the temperature of the inner space, and a heat insulation material layer surrounding an outer peripheral surface of the inner casing, the heat insulation material being composed of a fibrous material. The heat insulation material layer includes a first layer having a first bulk density ρ.sub.1 and a second layer enclosing an outer side of the first layer, the second layer having a second bulk density ρ.sub.2 smaller than the first bulk density ρ.sub.1.

A column oven is provided with an inner casing forming an inner space therein, the inner space being configured to adjust a temperature of a separation column for gas chromatography in a state in which the separation column is accommodated in the inner space, a temperature control element provided in the inner space to adjust the temperature of the inner space, and a heat insulation material layer surrounding an outer peripheral surface of the inner casing, the heat insulation material being composed of a fibrous material. The heat insulation material layer includes a first layer having a first bulk density ρ.sub.1 and a second layer enclosing an outer side of the first layer, the second layer having a second bulk density ρ.sub.2 smaller than the first bulk density ρ.sub.1.

Provided is a chiller and system that may be utilized in a supercritical fluid chromatography method, wherein a non-polar solvent may replace a portion or all of a polar solvent for the purpose of separating or extracting desired sample molecules from a combined sample/solvent stream. The system may reduce the amount of polar solvent necessary for chromatographic separation and/or extraction of desired samples. The system may incorporate a supercritical fluid chiller, a supercritical fluid pressure-equalizing vessel and a supercritical fluid cyclonic separator. The supercritical fluid chiller allows for efficient and consistent pumping of liquid-phase gases employing off-the-shelf HPLC pumps. The pressure equalizing vessel allows the use of off-the-shelf HPLC column cartridges. The system may further incorporate the use of one or more disposable cartridges containing silica gel or other suitable medium. The system may also utilize an open loop cooling circuit using fluids with a positive Joule-Thompson coefficient.

Provided is a chiller and system that may be utilized in a supercritical fluid chromatography method, wherein a non-polar solvent may replace a portion or all of a polar solvent for the purpose of separating or extracting desired sample molecules from a combined sample/solvent stream. The system may reduce the amount of polar solvent necessary for chromatographic separation and/or extraction of desired samples. The system may incorporate a supercritical fluid chiller, a supercritical fluid pressure-equalizing vessel and a supercritical fluid cyclonic separator. The supercritical fluid chiller allows for efficient and consistent pumping of liquid-phase gases employing off-the-shelf HPLC pumps. The pressure equalizing vessel allows the use of off-the-shelf HPLC column cartridges. The system may further incorporate the use of one or more disposable cartridges containing silica gel or other suitable medium. The system may also utilize an open loop cooling circuit using fluids with a positive Joule-Thompson coefficient.