The present invention relates to a method for conditioning reversed phase SPE cartridges that provides certain advantages compared with known such methods. The method of the invention finds particular use in the automated synthesis of radiolabeled compounds where SPE is used for example in the purification steps.

The present invention relates to a method for conditioning reversed phase SPE cartridges that provides certain advantages compared with known such methods. The method of the invention finds particular use in the automated synthesis of radiolabeled compounds where SPE is used for example in the purification steps.

There is provided a system for separation of analytes in a solution. The system encompasses a cartridge or trapping column enclosing a sorbent for binding the analytes in the solution and a conduit establishing a fluid link to a valve having a holding-loop to achieve elution through the cartridge at low pressures. Prior to entry into the loop, the eluent is diluted or modified by a confluent flow stream. The valve is switchable to a position following the elution from the cartridge for emptying the holding loop through an outlet port at high pressures comparable to those required for chromatographic columns. The system may use parallel gradient formation/elution to stagger analyses so that essentially the only analytical phase that hinders a 100% duty cycle is the time required for moving the first analyte from the valve and to the detector.

Methods, compositions, devices and kits having a novel chromatographic material are provided herein for separating and identifying organic molecules and compounds, for example molecules and compounds containing electron rich functional groups such as carbon-carbon double bonds. The methods, compositions, and kits include a metal-thiolate chromatographic medium (MTCM) with a sulfur-containing functional group or a metal-selenolate chromatographic medium (MSCM) comprising a selenium-containing functional group covalently attached to a support medium, such that the sulfur-containing functional group or selenium-containing functional group is bound to at least one metal atom. The MTCM and/or MSCM has affinity and specificity to compounds having one or more carbon-carbon double bonds, and performs a highly efficient and rapid separation of samples yielding non-overlapping peaks of purified materials compared to traditional media.

Methods, compositions, devices and kits having a novel chromatographic material are provided herein for separating and identifying organic molecules and compounds, for example molecules and compounds containing electron rich functional groups such as carbon-carbon double bonds. The methods, compositions, and kits include a metal-thiolate chromatographic medium (MTCM) with a sulfur-containing functional group or a metal-selenolate chromatographic medium (MSCM) comprising a selenium-containing functional group covalently attached to a support medium, such that the sulfur-containing functional group or selenium-containing functional group is bound to at least one metal atom. The MTCM and/or MSCM has affinity and specificity to compounds having one or more carbon-carbon double bonds, and performs a highly efficient and rapid separation of samples yielding non-overlapping peaks of purified materials compared to traditional media.

A mixed-mode chromatography method for the determination of phosphorylated sugars in a sample is provided. The mixed-mode chromatography method includes obtaining a sample comprising at least one phosphorylated sugar. The sample is introduced onto a chromatography system. The chromatography system includes a column having a stationary phase material contained inside the column. The stationary phase material has a surface comprising a hydrophobic surface group and at least one ionizable modifier. The sample with a mobile phase eluent is flowed through the column, where the at least one phosphorylated sugar is substantially resolved and retained within seven minutes. The mobile phase eluent includes water with an additive and acetonitrile with the additive. The mobile phase eluent has a pH less than 6. The at least one phosphorylated sugar is detected using a detector.

The disclosure relates to a reversed-phase chromatography method for the determination of at least one of glyphosate or AMPA in a sample. The method includes obtaining the sample comprising the at least one of glyphosate or AMPA in a sample matrix and introducing the sample to a reversed-phase chromatography system. The reversed-phase chromatography system includes a reversed-phase column having a stationary phase material contained inside the column. The stationary phase material includes a phenyl functional group. The method also includes flowing the sample with a mobile phase eluent through the reversed-phase column, wherein the at least one of glyphosate or AMPA is substantially resolved and retained. The mobile phase eluent has a pH between about 1.5 to about 2.5. The at least one of glyphosate or AMPA are detected using a detector.

A liquid chromatography system including a solvent delivery pump for delivering a mobile phase through the liquid chromatography system, an injector for injecting a sample into the mobile phase, a column for effecting a separation of components of the sample, and a dispersive element positioned between the injector and the column, the dispersive element configured to dilute a sample solvent in the mobile phase prior to entering the column is provided. Further dispersive elements, systems, and methods are also provided.

In the specification, a method for purifying a compound by column chromatography, and a method for optimizing the symmetry factor and theoretical plate number by allowing the slurry to settle and reducing the sedimentation volume of the slurry. A compound purified by such method is also provided.

In the specification, a method for purifying a compound by column chromatography, and a method for optimizing the symmetry factor and theoretical plate number by allowing the slurry to settle and reducing the sedimentation volume of the slurry. A compound purified by such method is also provided.