CIMmultus® DEAE 4 mL cGMP Compliant Monolithic Column (6 μm)
This high-performance ion exchange column is primarily intended for fast and efficient purification of biomolecules, especially for plasmid DNA, through their ionic interaction with the monolith.
- Item No.:
- BIA-904.5114-6
*Custom/bulk order quotes are provided within 72 hours of request.
Choose your CIMmultus®
CIMmultus® Monoliths are reusable chromatography devices for scalable high-resolution purification of complex biological samples. Inside the custom designed housing is a single piece stationary phase with homogeneous channel size and surface chemistry. This stationary phase is designed to simplify method transfer from development into production. CIMmultus® can be used as single-use disposable or multi-use columns, and they are available in various volume ranges – from 1mL for screening and method development purposes up to 40L for industrial manufacturing.
CIMmultus® DEAE is a high-performance ion exchange column, primarily intended for fast and efficient purification of biomolecules, especially for plasmid DNA, through their ionic interaction with the monolith.
DEAE features:
- Weak anion exchanger
- Working range, pH 2–9
- Binds molecules with a predominantly negative charge, repels molecules with a predominantly positive charge
- Use for capture, intermediate, or polishing steps in either bind-elute or flow-through mode
Benefits:
- Very fast processes by convective mass transport – resolution independent of flow
- Ready to use columns
- High-capacity for large molecules due to fully accessible void volume in the channels
- Laminar flow minimizes shear stress resulting in high yields
Dimensions
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Channel Size6 µm
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Column Tube Length28 mm
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Inner Diameter6.5 mm
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Outer Diameter15 mm
General Specifications
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Flow Rate0.4–50 mL/min | 2.4–335 cm/h | 0.1–12.5 CV/min
Operating Conditions
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Maximum Operating Pressure1.4 MPa | 14 bar | 200 psi
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Recommended Operating Temperature4 °C (39 °F) to 40 °C (104 °F)
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pH StabilityWorking range 2–10, cleaning in place 1–14
Physicochemical Information
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Bed Volume4 mL