The NexeraTM UC Prep is a new preparative supercritical fluid chromatography system that offers both the high basic performance developed for the previous Nexera UC model and original state-of-the-art preparative SFC technologies.
It resolves a number of issues in preparative tasks, reducing labor and improving efficiency while fitting into pre-existing workflows. Not only does the Nexera UC Prep achieve superior recovery rates for purification, it provides flexible system configurations in a compact design, requiring low installation space and allowing you to maximize lab resources.
The NexeraTM UC Prep is a new preparative supercritical fluid chromatography system that offers both the high basic performance developed for the previous Nexera UC model and original state-of-the-art preparative SFC technologies.
It resolves a number of issues in preparative tasks, reducing labor and improving efficiency while fitting into pre-existing workflows. Not only does the Nexera UC Prep achieve superior recovery rates for purification, it provides flexible system configurations in a compact design, requiring low installation space and allowing you to maximize lab resources.
Unique gas-liquid separation technology is used to minimize the potential for low sample recovery due to eluate scattering during carbon dioxide vaporization, achieving high recovery rates even for volatile compounds.
Simple operation ts seamlessly into preparative work ow
The dedicated software with intuitive preparative settings ensures peaks can be separated reliably by users of all experience levels.
Compact, benchtop design
This space-saving benchtop model includes a carbon dioxide pump that does not require an external chiller (cooling system for heat generated when pumping CO2 at high ow rates). In addition, one unit can handle a wide range of ow rates, lowering installation costs.
Add fractionation capabilities to the analytical SFC system
By adding a fraction collector to the analytical scale SFC, small volume fractionation is also possible. A complete work ow can be carried out seamlessly on one system, from method development to fractionation