Malvern Panalytical T2500, Organic GPC/SEC Column 300x8m CLM3002
Malvern Panalytical -- Item TECPIM000003566
Please add to cart & request for quote to see the price
Reserve Now
The T2500 Organic GPC/SEC Column (CLM3002) is a styrene-divinyl benzene (T-series) gel permeation/size-exclusion chromatography column designed for molecular-weight separations of synthetic polymers. It is intended for use with organic mobile phases (shipping solvent: THF) to separate polymers by hydrodynamic size and to deliver reproducible elution for polymer characterization applications.
Key Features:
- Dimensions: 300 mm x 8.0 mm
- Column type: Styrene-divinyl benzene (T-series)
- Exclusion limit (polystyrene): 20,000 Da
- Particle size: 6 µm
- Theoretical plate number: >18,000 per column
- Shipping solvent: Tetrahydrofuran (THF)
- Compatible solvents include THF, chloroform, toluene, xylene, acetone, MEK, DMF, DMAc, HFIP, NMP
Advantages:
- High separation efficiency enabled by >18,000 theoretical plates for improved resolution of polymer molecular-weight fractions.
- Designed for synthetic polymer analysis with a 20,000 Da exclusion limit, enabling reliable fractionation within that molecular-weight range.
- Broad solvent compatibility (including THF, chloroform and toluene) supports flexible method development for a variety of organic polymer systems.
Product Details
Overview
| Model | |
|---|---|
| Product Type | Consumables |
| Part Number | CLM3002 |
| Brand | Malvern Panalytical |
| Gross Dimensions (WxDxH cm) | |
| Net Dimensions (WxDxH cm) | |
| Gross Weight (kg) | |
| Net Weight (kg) |
Specifications
More options are available. Please contact us for more information.
Document
More options are available. Please contact us for more information.
Videos
Malvern Panalytical
Malvern Panalytical instruments blend cutting-edge engineering with the latest advancements in data analytics and AI. This combination empowers industries and researchers to comprehend the world with unparalleled precision, from biomolecular structures to quantum dots.