Thermo Scientific™ ProPac™ SAX-10 LC Columns

Use ProPac™ SAX-10 LC Columns for exceptionally high resolution and efficiency when separating protein variants.


Overview
Brand: Thermo Scientific™

Manufacturer Part Number: 063703

UNSPSC: 41115704

Code: 16

Additional Details:
Additional Details: Weight: 0.50000kg



Disclaimers: Limited warranty period: Subject to all warranty requirements and exclusions set out in our Terms and Conditions of Sale, this product is warranted from the date we ship the product and for ninety (90) days thereafter. Disclaimer to internal research use restriction: Any restrictions on the purchaser to utilize the product(s) for internal research purposes only does not apply to the product(s) on the web pages associated with this statement.

Product Code. 11381863

Quantity Price
1 £ 1975.0 / Each
Estimated Shipment
20-03-2017
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Description and Specification

Specification

Temperature <60�C
For Use With LC
Packing Material Spherical, Non-Porous Polymer
Endcapped
Stationary Phase Quaternary Ammonium
Carbon Load
Surface Area
Pore Size Non-Porous
Mobile Phase Compatibility pH 2-12, 80% Compatible with Acetonitrile, Acetone, Methanol, Compatible with Nonionic and Zwitterionic Detergents, Incompatible with Anionic Detergents
Flow Rate 1mL/min.
Column Format Analytical Column
Diameter (Metric) 9mm
Particle Size 10µm
Column Construction PEEK
Technique Protein/Anion Exchange
Column Type Ion Exchange
Length (Metric) 250mm
pH 2 to 12
Max. Pressure 3000psi
Resin Composition 10µm diameter core bead (55% cross-linked) grafted with a pellicular layer to which are attached the quaternary ammonium functional groups
USP Type N/A

Maximizing Resolution
  • ProPac SAX-10 LC column is a strong anion-exchanger with a quaternary amine functional group.
  • Column sizes range from 2mm I.D., for analytical work, up to 22mm I.D. for semiprep work.

Superior Performance for Protein Analysis
  • Ideal for characterization and quality control assessment of closely-related protein variants
  • Unequaled high-resolution separations
  • High-efficiency peaks with excellent recovery
  • Higher capacity than other columns based on nonporous particles
  • Superior column-to-column and lot-to-lot reproducibility eliminates column variability as a concern in stability and QA/QC testing