Agilent, 5190-2491, Agilent Bio WAX, NP5, 2.1 x 250 mm, PEEK

Agilent Bio WAX, NP5, 2.1 x 250 mm, PEEK. A weak anion exchange HPLC column with nonporous particles. Particle size is 5 μm. PEEK hardware enables this column to couple with bio-compatible or bio-inert LC systems.

Specifications:
Brand: Agilent Bio WAX
Column Material: PEEK
Hardware: PEEK
Inner Diameter (ID): 2.1 mm
LC Platform: BioInert
Length: 250 mm
Maximum Temperature: 80 °C
Part Number Application Domain: Biopharma
Part Number Application: OligosProteins
Particle Size: 5 µm
Particle Type: Non-porous
Phase: WAX
Pressure Rating: 413 bar
Separation Mode: Ion Exchange (IEX)
Shipping Solvent: Phosphate Buffer
Technique: LC
UNSPSC Code: 41115711
pH Range: 2-12

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The Agilent Bio WAX NP5 column is engineered for high-performance anion-exchange chromatography, making it ideal for the separation and analysis of biomolecules such as proteins, peptides, and nucleic acids. With dimensions of 2.1 x 250 mm and constructed with robust PEEK material, this column provides excellent chemical resistance and is suitable for use with a wide range of buffer conditions, including high-salt concentrations commonly required in ion-exchange workflows. The NP5 particle design ensures optimal resolution, low backpressure, and consistent performance for demanding laboratory applications.

This column is particularly well suited for researchers working in biopharmaceutical development, quality control, and proteomics, where detailed characterization and purification of charged biomolecular species are essential. Its compatibility with Agilent LC and UHPLC systems, as well as other standard liquid chromatography platforms, allows seamless integration into existing workflows. In addition, it aligns well with related Agilent bio columns and consumables designed for biomolecule analysis, ensuring flexibility and scalability in method development or routine analysis. Reliable performance and robust construction make this column an excellent choice for achieving reproducible, high-quality separation results in both research and industrial environments.