PTFE and other hydrophobic materials are well suited to organic samples and solvents, which result in no resistance or back pressure. However, some organic
Kinesis KX Syringe Filters is a comprehensive range of non-sterile disposable syringe filters for reliable Hydrophilic PTFE 13mm, 0.22µm with pre-filter.
Results 1 - 30 of 89 Polypropylene Prefilter, hydrophobic, 30 µm, 47 mm This is. All Photos(2). Polypropylene Prefilter, hydrophobic, 30 µm ...
Filtration Products for analytical and life science labs. Get strong, color coded, solvent resistant, syringe filters and membrane filters that are leak
Filter both aqueous and organic solvents Optically clear when wet Hydrophilic PTFE membranes are a thin, unsupported, highly porous film that offers maximum
solvent. All syringe filter devices show different levels of extractables which that use nylon membranes, with or without glass fiber pre-filtration.
Nylon and PTFE (Teflon) membranes have broad chemical compatibility and can be used to filter most HPLC and GC fluids/solvents. PTFE can also be used to filter
Kinesis KX Syringe Filter, PTFE, 25 mm dia., 0.45 µm; 100/pk · Compatible with many non-aqueous and organic solvent mixtures · Solvent-resistant filter housing
25mm · 0.45µm · No Pre-filter · Non-aqueous and solvent-based samples. High chemical resistance · Not recommended for aqueous samples without conditioning.
The PTFE syringe filter is available with or without a glass fiber prefilter. PTFE membranes are hydrophobic and are designed to filter most aggressive solvents
Highest solvent resistance and high protein binding · Filtration of non-aqueous or solvent based samples · Condition with methanol or ethanol prior to aqueous
PTFE (32 items) · Kinesis PTFE Sterile Syringe Filters.
Filter membranes for filtering organic solvents and aqueous solutions for HPLC and other analytical methods, and for use in sample preparation,
Solvent-resistant RC-membranes 36. Minisart® SRP Units PTFE membrane filters is particularly suitable ... with integrated glass fiber prefilter.