Description
Product Information
Acros Organics’ Dowex 50WX8, 100-200 mesh ion-exchange resin is a high-capacity, strong acid cation exchange resin, perfect for analytical separations and deionization processes. The resin comes in a moist bead or sphere form, ensuring efficient cation exchange with sulfonic acid groups. With a particle size ranging up to 15% max on 60 mesh, this fine mesh resin is ideal for sample preparation tasks. It is packaged in a plastic bottle containing 2.5 kg and colored beige to brown. Having a total wet volume capacity of minimum 1.7 meq/mL in H form and a water retention capacity of 50-58%, it guarantees optimal performance in lab settings. This new, unused batch bears the lot number A0429882 and offers reliable consistency for your laboratory needs.
Key Features
- High-capacity strong acid cation exchange resin
- Moist beads or spheres for efficient cation exchange
- Ideal for analytical separations, deionization, and sample preparation
- Particle size: 15% max on 60 mesh, cumulative
- H form wet volume capacity: minimum 1.7 meq/mL
- Water retention capacity: 50-58%
- Packaged in plastic bottle, quantity 2.5 kg
Specifications
- Chemical Identifiers: CAS 11119-67-8, MDL Number MFCD00132726
- IUPAC Name: AmberChrom 50WX8 Ion Exchange Resin
- Physical Form: Moist Beads or Spheres
- Particle Size: 15% Max. (on 60 mesh, cumulative), 15 % Max. (through 170 mesh)
- Packaging: Plastic bottle
- Volume: Total Capacity wet volume capacity, H form min. (meq/mL): 1.7
- Water Retention Capacity H form: 50 to 58%
- Color: Beige to Brown
- Quantity: 2.5 kg
- Solubility Information: Insoluble in water
Weight
Imperial: 8.4 Pounds
Metric: 3.81 Kilograms
Shipping Dimensions
Imperial: 7.2 lb x 7.2 lb x 15.6 lb
Metric: 18.29 cm x 18.29 cm x 39.62 cm
Harmonized Code
39140020
Harmonized Code Details
HS Code 39140020 describes ion-exchange resins packaged for retail sale, which fits the Dowex 50WX8 product as it covers cation exchange resins used in laboratory applications.





Reviews
There are no reviews yet.