Agilent Bio WCX, NP1.7, 4.6 x 50 mm. A weak cation exchange HPLC column with nonporous particles. Particle size is 1.7 μm. Nonporous particles are best for efficient mass transfer and high resolution separations.
Specifications:
Brand: Agilent Bio WCX
Column Material: Stainless Steel
Hardware: SS
Inner Diameter (ID): 4.6 mm
LC Platform: Stainless Steel
Length: 50 mm
Maximum Temperature: 80 °C
Part Number Application Domain: Biopharma
Part Number Application: Charge Variant AnalysisPeptidesProteins
Particle Size: 1.7 µm
Particle Type: Non-porous
Phase: WCX
Pressure Rating: 689 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 WCX NP1.7 4.6 x 50 mm column is a high-performance weak cation exchange chromatography column designed for the separation and analysis of biomolecules, including proteins, peptides, and biotherapeutics. Utilizing non-porous 1.7-micron particle technology, the column delivers outstanding resolution and fast, efficient separations, making it ideal for high-throughput laboratories and advanced research applications. Its 4.6 mm internal diameter and 50 mm length accommodate analytical scale separations with optimal peak shape and minimal sample carryover.
This column is particularly suitable for charge variant analysis, quality control testing, and detailed characterization of monoclonal antibodies and other protein-based therapeutics. Its robust construction ensures compatibility with a broad range of aqueous buffers and is fully optimized for use with Agilent HPLC and UHPLC systems, including the 1290 Infinity LC series. The Bio WCX column can also be integrated with related Agilent biochromatography columns for comprehensive biomolecule screening and analysis workflows.
Researchers and analytical scientists in biopharmaceutical development, academic, and clinical environments will benefit from the column's reproducible performance, longevity, and ease of integration into existing chromatographic platforms. Its selectivity and sensitivity support demanding regulatory and research requirements.