Application
A 33 mm diameter sterile syringe filter with a 0.22 µm pore size hydrophilic PVDF membrane. Comes in a pack of 50.
Sterilization of tissue culture media, protein solutions or aqueous solutionsUltra-Low Protein Binding
Features and Benefits
Features & Benefits: Tailored to a variety of applications based on membrane type, housing and validation rating Specialized filter units to protect hemodialysis transducers from blood and moisture and for vacuum line protection Low extractables and low absorption membranes for minimum sample losses Faster flow rates and higher operating pressures for high performance needsSterilization of Aqueous Solutions, Organic Solvents and Gases, Filtration of High Value Protein or Small Molecule Components
General description
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. Millex filters not only feature minimal hold-up volume and faster flow rates, but they also withstand higher operating pressures and are chemically compatible with a range of samples and solvents to minimize leaching of extractable impurities. Millex filters are produced in a controlled, automated environment with the highest quality standards. Sterile devices come with a certificate of quality, with select devices marked for medical applications.
Legal Information
Millex is a registered trademark of Merck KGaA, Darmstadt, Germany
MF-Millipore is a registered trademark of Merck KGaA, Darmstadt, Germany
Other Notes
Directions for Use Organism Retention: Microorganisms Mode of Action: Filtering Application: Sterile Filtration Intended Use: Sterilization of small volumes of aqueous solutions Instructions for Use: Please refer to Instructions for Use section of Millex® syringe filter user guide Storage Statement: Store in dry location Disposal Statement: Dispose of in accordance with applicable federal, state and local regulations.
This product has met the following criteria: