Advantec MFS. Cellulose Esters (MCE) membrane is a general purpose filter used in many applications for the microbiological examination of water, wastewater, pharmaceuticals, food, and beverages, and air monitoring. MCE membranes offer high recovery rates and superior flow rates. Advantec MCE membranes are high. Related Products: 0.3
Available in 4, 13, 25, 33, and 50 mm diameters with a variety of membranes, Millex® sterile syringe filters are ideal for sterilizing organic solvents, aqueous solutions or air/gas. Many sample preparation methods specify Millex® filters because of their unsurpassed quality and consistency.
CALL: (000) 000-0000. Products. Analyzer Consumables; Bags; Beakers; Blood Collection
MilliporeSigma™ Millex™ Sterile Syringe Filters $304.50 / Pack of 50 Catalog No. 13-100-105 Basix™ Syringe Filters, PVDF, Sterile $181.70 - $1455.00 Catalog No. 09-720-000 Fisherbrand™ Syringe Filters: Nylon Membrane $329.50 / Pack of 100 Catalog No. 13-100-100 Basix™ Syringe Filters, Nylon, Sterile $238.50 - $1905.00 Catalog No. 09-754-21
Sterile MCE Syringe Filters. Sterile Diamond® PureFlow™ syringe filters satisfy requirements of life science applications for sterilization of solutions or clarification of biological fluids. Sterile filters include a polypropylene (PP) microfiber pre-filter layer to improve filtration of particulate-laden fluids that are difficult to filter
Nitrocellulose MCE Syringe Filters. Sterlitech MCE syringe filters are made using high-quality nitrocellulose polymer (cellulose nitrate and cellulose acetate). This material is easily blocked to give it a very low background. MCE syringe filters are hydrophilic and designed for efficient clarification and filtration of aqueous samples.
Sterile syringe filters are typically used in life science applications to sterilize solutions or for clarification. Non-sterile syringe filters are used across a range of filtration and sample preparation applications. They are widely used in analytical chemistry for sample preparation, protecting analytical equipment from particle contamination.
MCE (Mixed Cellulose Ester)-filtration of aqueous solutions; effectively binds trace proteins. MCE Syringe Filter Feature Uniform aperture No medium dropping Thin texture Little resistance High filtration speed Little absorption All items are quality tests for filter efficacy and housing integrity.
Cole-Parmer BD Biocoat Disposable Syringe, Non-Sterile, Luer-Lok, 20 mL, 25/Pk Use these latex-free, disposable polypropylene syringes for your general-purpose applications. Available in either Luer-Lok or slip-tip versions. Syringes come nonsterilized in bulk packages and can be autoclaved.
Fisherbrand™ Syringe Filters - Sterile Low hold-up volume helps you to recover virtually all of your sample after filtering $206.50 - $554.00
Apr 25, 2022 · Pre-sterilized and individually packed, hydrophilic Mixed Cellulose Esters (MCE) membrane filters are a popular filter media for many applications in the microbiological examination of water, wastewater, pharmaceuticals, food and beverages and air monitoring. MCE membranes offer high recovery rates and superior flow rates.
MilliporeSigma. S-Pak Filters are made from Mixed cellulose Esters (MCE) with 1.2 mum pore size, white, gridded, 47mm diameter. These sterile, ready to use, individually packed filters are easy to use and more appropriate for testing yeasts and molds in samples such as 'hard to filter' beverages Synonyms: .
Sterile Millex ® Syringe Filters Applications include sterilizing cell culture reagents such as cell culture media, antibiotics, supplements, sera, viruses for infection, and other biological solutions Fast flow and low binding for cell culture media preparation with Millipore Express ® PLUS polyethersulfone (PES) membrane
Description. Millex Syringe Filter, MCE, Non-sterile. Background Information. Overview of Non-Sterile Millex® Syringe Filters with MCE Membrane: • Hydrophilic mixed cellulose esters (MCE) membrane available in 0.22 µm, 0.45 µm and 0.80 µm pore sizes to suit your application needs. • Housing is made from a low-extractable polyvinylidene
