Empore™ SPE Disks
SUPELCO/66896-U - matrix active group Carbon, diam. 47 mm, pk of 20
Synonym: carbon, SPE disks, 47 mm
Product Type: Equipment/Book
composition | bed wt., 500 mg (per 47 mm disk) |
diam. | 47 mm |
matrix | activated carbon particle platform |
matrix active group | Carbon |
membrane thickness | 0.5 mm |
packaging | pk of 20 |
particle size | 12 μm |
product line | Empore™ |
Quality Level | 100 |
surface area | 1100 m2/g |
technique(s) | solid phase extraction (SPE): suitable |
Application: | Developed for the extraction of volatile and highly polar compounds from aqueous samples. Applications include: • Ground water - N-nitrosdeimethylamine • Waste water - Oxamyl and methamidophos • Drinking water - Trihalomethanes • Reagent water - Clean-up for purge and trap applications • Forensics - Fire accelerants, combustible vapors |
Disclaimer: | CDS Analytical LLC recently acquired the rights to Empore products from 3M Purification Inc. For an interim phase, you may receive products packaged with either manfacturer′s branding. |
General description: | Empore membrane SPE technology comprises of SPE particles tightly enmeshed within a network of inert PTFE fibrils (90% SPE particles : 10% PTFE, by weight). The SPE-membrane fabrication process results in a highly dense and uniform extraction medium that offers distinct advantages over traditional sorbent/packed-bed SPE products. Empore SPE technology provides a denser, more uniform extraction bed than traditional packed bed products allowing for smaller bed weights, shorter analyte to pore diffusion paths, and more efficient extractions. The Empore line of SPE disks comprises of the most complete line of SPE disks for extracting large volumes of aqueous samples. The product line ranges from time-tested C18 to unique phase chemistries such as carbon and the highly polar Oil & Grease disk. The disks are ideal for environmental analysis where 1 L sample volumes are not uncommon and provide an efficient alternative to LLE. Save Time & Money: • Reduced SPE Bed Mass = Reduced SPE Solvent & Elution Volumes • Minimize SPE eluate evaporation time • Potentially allows for direct injection of the SPE eluate • Dense & Uniform Extraction Medium = No SPE Channeling and Voiding • Efficient mass-transfer kinetics allow for faster flow rates • Eliminate SPE fines improving column and instrument life |
Legal Information: | Empore is a trademark of CDS Analytical |
RIDADR | NONH for all modes of transport |
WGK Germany | WGK 3 |
Flash Point(F) | Not applicable |
Flash Point(C) | Not applicable |
UNSPSC | 13111000 |