Tisch
Nylon Syringe Filters, 0.22 um, 25mm, Luer-Lok/Luer Slip, Sterile, 100/Pk SKU: SF13830

Nylon Syringe Filters - SF13830

The SF13830 nylon syringe filters combine a 25mm diameter with 0.22µm pore size in a pre-sterilized configuration, providing reliable sterile filtration and sterilization capabilities for critical laboratory applications. Tisch Scientific syringe filters excel at removing bacteria and particulates from heat-sensitive solutions while maintaining sample integrity throughout the filtration process. SF13830 filters deliver consistent sterilization performance for cell culture media, pharmaceutical preparations, and biological solutions requiring guaranteed sterility.

Key Nylon Membrane Characteristics

• 0.22µm absolute pore rating ensures complete removal of bacteria and microorganisms, providing sterile filtrate for critical applications and sensitive experiments
• Naturally hydrophilic membrane enables immediate filtration of aqueous solutions without pre-wetting, maintaining steady 10ml/min flow rates at 10 psi
• Pre-sterilized and individually packaged eliminates preparation steps and ensures contamination-free filtration for aseptic processing requirements
• Broad chemical compatibility supports sterilization of both aqueous solutions and compatible organic solvents used in pharmaceutical and biotechnology applications
• Low protein binding characteristics preserve valuable proteins and biomolecules during sterile filtration, critical for cell culture and biological research

Key Construction Characteristics

• Medical-grade polypropylene housing provides exceptional chemical resistance and maintains structural integrity at pressures up to 87 psi burst pressure
• 25mm diameter format offers 4.08cm² effective filtration area optimized for standard volume sterile filtration up to 100ml throughput
• Universal Luer-Lok/Luer Slip compatibility ensures aseptic connections with sterile syringes and prevents contamination during filtration procedures
• Validated sterility assurance meets industry standards for sterile filtration with bubble point specification of 0.28 psi ensuring membrane integrity

SF13830 syringe filters provide the sterility assurance your critical applications demand through validated 0.22µm filtration performance. Tisch Scientific's combination of nylon membrane technology and certified sterile packaging ensures you'll achieve reliable sterilization of your valuable samples and reagents. You can trust the SF13830 to deliver consistent bacterial retention and maintain the sterility your cell culture, pharmaceutical, and biological research applications require.

For more information about chemical and material compatibility, please review our Chemical Compatibility Chart.

Bubble Point

0.28psi.

Burst Pressure

87psi.

Connection Type

Luer-Lok/ Luer Slip

Construction

Polypropylene (PP)

Diameter

25mm

Filtration Area

4.08cm²

Flow Rate

10ml/ min @ 10psi.

Holdup Volume

100ml

Incompatibility

Acids, agressive organics, protein

Material

Nylon

Maximum Operating Temperature

100°C

Pack Count

100

Pore Size (µm)

0.22

Sterility

Sterile

Sterilization

Autoclave: 121°C for 30 minutes/ Gamma: 5kg, for 8 hours

Volume Throughput

100ml

Wetability

Hydrophilic

• Cell Culture Media Sterilization - Terminal sterilization of growth media, supplements, and additives for mammalian cell culture and microbiology applications
• Pharmaceutical Solution Sterilization - Sterile filtration of heat-labile pharmaceutical preparations, injectable solutions, and parenteral formulations
• Protein Solution Sterilization - Removal of bacterial contaminants from protein solutions, antibody preparations, and enzyme solutions requiring sterility
• Biological Buffer Preparation - Sterilization of buffers, balanced salt solutions, and reagents for molecular biology and biochemistry applications
• Clarification and Sterilization - Simultaneous particle removal and sterilization of biological samples for analytical testing and quality control
• Tissue Culture Applications - Preparation of sterile solutions for primary cell isolation, stem cell culture, and regenerative medicine research