Tisch
Nylon Syringe Filters, 0.45um, 13mm, Luer-Lok/Luer Slip, Nonsterile, 100/Pk SKU: SF13902

Nylon Syringe Filters - SF13902

The SF13902 nylon syringe filters feature a 13mm diameter and 0.45µm pore size configuration, providing effective sample clarification and particulate removal for small-volume analytical applications. Tisch Scientific syringe filters excel at processing precious samples and limited-quantity specimens where sample conservation is critical while maintaining reliable particle retention. The compact design delivers consistent performance for routine laboratory filtration tasks requiring careful management of valuable reagents and biological samples.

Key Nylon Membrane Characteristics

• 0.45µm pore size rating effectively removes particulates, cellular debris, and suspended solids while allowing dissolved proteins and small molecules to pass through unimpeded
• Naturally hydrophilic membrane enables immediate filtration of aqueous solutions without pre-wetting, maintaining consistent 2ml/min flow rates at 10 psi throughout processing
• Broad chemical compatibility supports filtration of both aqueous and organic solvents, accommodating diverse analytical methods from chromatography to spectroscopy
• Low protein binding properties minimize sample loss during filtration, particularly important when processing dilute protein solutions or expensive biological reagents
• Temperature resistance to 100°C permits filtration of heated samples and enables autoclave sterilization at 121°C for applications requiring sterile conditions

Key Construction Characteristics

• Durable polypropylene housing provides excellent chemical resistance and structural integrity, withstanding pressures up to 87 psi burst pressure
• 13mm diameter format offers 1.09cm² effective filtration area optimized for small-volume samples up to 10ml throughput
• Universal Luer-Lok/Luer Slip compatibility ensures secure connections with standard syringes while preventing sample loss during filtration procedures
• Minimal 20µl holdup volume maximizes recovery of precious samples, critical for expensive reagents and limited-availability biological specimens

The SF13902 syringe filters deliver dependable performance for applications where your sample volume limitations demand efficient small-scale filtration solutions. Tisch Scientific's combination of nylon membrane chemistry and optimized housing design ensures you'll achieve maximum sample recovery while maintaining the filtration quality your analytical results require. You can confidently process your most valuable samples knowing the SF13902 provides the consistency and reliability your research demands.

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

Burst Pressure

87psi.

Connection Type

Luer-Lok/ Luer Slip

Construction

Polypropylene (PP)

Diameter

13mm

Filtration Area

1.09cm²

Flow Rate

2ml/ min @ 10psi.

Holdup Volume

20ml

Incompatibility

Acids, agressive organics, protein

Material

Nylon

Maximum Operating Temperature

100°C

Pack Count

100

Pore Size (µm)

0.45

Sterility

Nonsterile

Sterilization

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

Volume Throughput

10ml

Wetability

Hydrophilic

• Small-Volume HPLC Sample Preparation - Clarification of injection samples to protect analytical columns from particulate contamination while preserving valuable analytes
• Cell Culture Supernatant Processing - Removal of cellular debris from culture media for downstream analysis of secreted proteins and metabolites
• Precious Sample Filtration - Processing of limited-quantity biological samples in proteomics research where sample conservation is paramount
• Pharmaceutical Dissolution Testing - Clarification of dissolution media samples for quality control analysis in formulation development
• Environmental Trace Analysis - Preparation of small-volume water and extract samples for sensitive analytical techniques requiring particle-free solutions
• Enzyme Solution Clarification - Removal of particulates from enzyme preparations and substrate solutions to ensure optical clarity in kinetic assays