Language
Español
English
0
Shim-pack UC Series (SFC Columns)

 

When conducting analysis with the Nexera UC supercritical fluid chromatography system, because diffusion of the sample band in the mobile phase is high compared with liquid chromatography, separation behavior changes significantly depending on the types of columns used.
Shim-pack UC series was designed with a variety of stationary phases, making it suitable for analysis of various compounds.

Achieve high speed and high performance

Shim-pack UC series offers various stationary phases suitable for the mobile phase of high diffusion and low-viscosity liquid carbon dioxide.
Analysis time can be reduced at a high flow rate without impairing the separation performance. In addition, analysis speed, which is limited in HPLC, can be increased.

Wide range of stationary phases meets diverse needs

Shim-pack UC series was designed with twenty kinds of packing materials and a wide range of particle and column sizes that can be selected based on the analyte.

High durability and stable reproducibility

Shim-pack UC series achieves high inertness for improved analysis precision and increased column durability. Its uniform silica surface and stable chemical modification also ensure high analysis reproducibility.

Rewriting the Book on Supercritical Fluid Chromatography

supercritical fluid chromatography

 

Supercritical carbon dioxide (CO2) displays the qualities of both a liquid and a gas, making it the ideal choice of mobile phase in supercritical fluid chromatography (SFC). Historically, SFC has been overshadowed by other forms of chromatography such as high-performance liquid chromatography and gas chromatography. However, recent developments in SFC technology have transformed it into a highly accurate, sensitive and cost-effective solution that can outperform other chromatography. With the ability to analyze a range of polar and non-polar molecules, and easily transferable expertise and equipment, it's time to rethink SFC, and discover the advantages of supercritical CO2.

 

Features

Learn more

News / Events

Learn more