Analysis of metabolite by supercritical fluid chromatography (CAT#: STEM-CT-0016-LJX)

Introduction

Metabolite is a substance that is produced or consumed by metabolic processes, excluding biomacromolecules.<br />Supercritical fluid chromatography (SFC) owes many of its advantages to the properties of supercritical CO2, which possesses benefits as mobile phase. SFC has recently gained attention as a separation technique because it can be utilized for not only non-polar but also polar compound analysis. In addition, MS is widely adopted for SFC, and the options for MS are equivalent to liquid chromatography. Sensitive and selective detection is crucial in metabolite analysis. The SFC/MS system can be an alternative approach to liquid chromatography, as can metabolite analysis using packed-column SFC in biosamples.

Add to Cart Please Inquire

Principle Applications Procedure Materials Notes Related Products

Principle

Supercritical fluid is a substance that has both gaseous and liquid properties above the critical point. Supercritical fluids have the advantages of high diffusion coefficient, low viscosity, adjustable solubility and high vapor phase density, so they can provide efficient mass spectrometry ionization and separation results.
Supercritical fluid chromatography (SFC) is an efficient separation technique that uses supercritical fluid as a mobile phase. The samples are packed into short tubes or SPE columns, and the samples are compressed and regulated by supercritical fluid to obtain good solubility. The sample components are then separated by column interaction, thus achieving the separation of different compounds.

Applications

For efficient separation of substances
Widely used in biology, chemistry, environmental protection and other fields

Procedure

1. Sample injection
2. The high pressure pump increases the pressure of the sample and mobile phase
3. The sample and mobile phase enter the chromatographic column
4. Flow limiter assists sample separation

Materials

• Sample Type:
Metabolite

Notes

1. In the process of separation, the control of pressure and temperature of supercritical fluid is very important, which affects the properties and separation efficiency of supercritical fluid.
2. In addition, the selection of the appropriate column, packing and moving equivalent factors will also affect the separation effect.

Other recommended products

Chiral separation of amides by supercritical fluid chromatography (CAT#: STEM-CT-0054-LJX)
Quantitative determination of salbutamol sulfate impurities by achiral supercritical fluid chromatography (CAT#: STEM-CT-0053-LJX)
Preparative enantioseparations by supercritical fluid chromatography (CAT#: STEM-CT-0020-LJX)
Profiling of targeted phytosterols by a fast ultra performance supercritical fluid chromatography-tandem mass spectrometric method (CAT#: STEM-CT-0050-LJX)
Qualitative and Quantitative Analysis of Metarhizium brunneum Metabolites from Culture Broth by Supercritical Fluid Chromatography (CAT#: STEM-CT-0040-LJX)
Insights into enantioselective separations of ionic metal complexes by sub/supercritical fluid chromatography (CAT#: STEM-CT-0033-LJX)
Stereoselective quantification of triticonazole in vegetables by supercritical fluid chromatography (CAT#: STEM-CT-0042-LJX)
Analysis of non-saponifiable lipids by super-/subcritical-fluid chromatography (CAT#: STEM-CT-0058-LJX)