Kinetic Chemicals patented the new fluorinated plastic (analogous to the already known polyethylene) in 1941, and registered the Teflon trademark in 1945. By
Kinesis Polytetrafluoroethylene (PTFE) Syringe Filters for UHPLC & HPLC. Part No. ESF-PT-13-022. Web Price $100.42 PK/100. Add to Cart.
Hydrophilic surface, good solvent resistance and medium protein binding · Filtration of all aqueous samples and most organic solvents · Strong mechanical
Laboratory Filtration. PTFE membrane discs are perfectly suited for laboratory scale filtration of aggressive organic solvents, concentrated acids, alkalis, and
The larger 50 mm diameter disc filter has a PTFE membrane and polypropylene housing with hose barb connectors and is ideal for filtering aggressive solvents or
KX Membrane Filter, PTFE, 13mm, 0.22µm. Suitable Sample, Non-aqueous and solvent-based samples. High chemical resistance.
Kinesis KX Syringe Filters is a comprehensive range of non-sterile PTFE. • Highest solvent resistance and high protein binding. • Filtration of ...
Kinesis KX Syringe Filters is a comprehensive range of non-sterile PTFE. • Highest solvent resistance and high protein binding. • Filtration of ...
Mitex Membrane Filter, 5.0 µm pore size, hydrophobic PTFE, 47 mm Hydrophobic membranes are recommended for gas filtration, low surface tension solvents, ...
Browse a comprehensive selection of "Filter Membranes" from a wide Kinesis KX Hydrophilic PVDF Filter Membranes ... Kinesis KX PTFE Filter Membranes.
Amazon offers a wide range of microfiltration membrane filter products for However, another great quality of PTFE membrane is its chemical resistance.
The extreme chemical resistance of PTFE membranes makes them very useful for filtering solvents or other aggressive chemicals for which other membranes are.
KX Membrane Filter, PTFE, 13mm, 0.45µm. Suitable Sample, Non-aqueous and solvent-based samples. High chemical resistance.
4 Variety of membranes, porosities, and diameters available. 5 Luer lock inlet provides strong, leak-tight syringe connection to withstand filtration pressure.