Target2® Regenerated Cellulose Syringe Filters
Regenerated cellulose syringe filters are ideally suited for almost any laboratory procedure, from HPLC sample preparation to dissolution sample testing. Regenerated cellulose possesses superior chemical resistance in either aqueous or organic-based sample environments. Its extremely low biological-based binding coefficient is ideally suited for maximum sample recoveries of biological-based assays. Regenerated cellulose contains no binders, surfactants or wetting agents to assure minimal extractables in analytical procedures.
• Hydrophilic membrane provides excellent flow rates and extremely low binding coefficients
• Superior choice for biological assays, gel capsule dissolution testing, protein sample matrixes
• Compatible with a wide range of aqueous and organic-based sample environments
• Recommended for reverse phase and normal phase HPLC
Target2™ Syringe Filters are an ideal choice for general purpose laboratory use. Robust and reliable, they deliver excellent performance at an attractive price. They provide cleaner sample extracts by removing interfering materials and fine particles.
• Low extractable membranes and housing
• HPLC performance tested
• Plain polypropylene housing
• 30 mm products pressure rated to 100 psi
• Enhanced luer lock inlet which provides secure attachment to syringes
• Low hold-up volume allows for the treatment of small sample volumes with minimal sample loss
Specifications
• Membrane: HPLC certified regenerated cellulose
• Protein binding: <5 g/cm2
• Porosities: 0.20 m and 0.45 m
• Autoclave: Sterilize by dry heat at 121°C for 15 minutes
• Pre-filter (if fitted) GMF 1 m
Applications:
• HPLC and organic solvent sample preparation and clean up
• Dissolution sample analysis, especially high-binding tablets or cap
Read More
• Hydrophilic membrane provides excellent flow rates and extremely low binding coefficients
• Superior choice for biological assays, gel capsule dissolution testing, protein sample matrixes
• Compatible with a wide range of aqueous and organic-based sample environments
• Recommended for reverse phase and normal phase HPLC
Target2™ Syringe Filters are an ideal choice for general purpose laboratory use. Robust and reliable, they deliver excellent performance at an attractive price. They provide cleaner sample extracts by removing interfering materials and fine particles.
• Low extractable membranes and housing
• HPLC performance tested
• Plain polypropylene housing
• 30 mm products pressure rated to 100 psi
• Enhanced luer lock inlet which provides secure attachment to syringes
• Low hold-up volume allows for the treatment of small sample volumes with minimal sample loss
Specifications
• Membrane: HPLC certified regenerated cellulose
• Protein binding: <5 g/cm2
• Porosities: 0.20 m and 0.45 m
• Autoclave: Sterilize by dry heat at 121°C for 15 minutes
• Pre-filter (if fitted) GMF 1 m
Applications:
• HPLC and organic solvent sample preparation and clean up
• Dissolution sample analysis, especially high-binding tablets or cap
Regenerated cellulose syringe filters are ideally suited for almost any laboratory procedure, from HPLC sample preparation to dissolution sample testing. Regenerated cellulose possesses superior chemical resistance in either aqueous or organic-based sample environments. Its extremely low biological-based binding coefficient is ideally suited for maximum sample recoveries of biological-based assays. Regenerated cellulose contains no binders, surfactants or wetting agents to assure minimal extractables in analytical procedures.
• Hydrophilic membrane provides excellent flow rates and extremely low binding coefficients
• Superior choice for biological assays, gel capsule dissolution testing, protein sample matrixes
• Compatible with a wide range of aqueous and organic-based sample environments
• Recommended for reverse phase and normal phase HPLC
Target2™ Syringe Filters are an ideal choice for general purpose laboratory use. Robust and reliable, they deliver excellent performance at an attractive price. They provide cleaner sample extracts by removing interfering materials and fine particles.
• Low extractable membranes and housing
• HPLC performance tested
• Plain polypropylene housing
• 30 mm products pressure rated to 100 psi
• Enhanced luer lock inlet which provides secure attachment to syringes
• Low hold-up volume allows for the treatment of small sample volumes with minimal sample loss
Specifications
• Membrane: HPLC certified regenerated cellulose
• Protein binding: <5 g/cm2
• Porosities: 0.20 m and 0.45 m
• Autoclave: Sterilize by dry heat at 121°C for 15 minutes
• Pre-filter (if fitted) GMF 1 m
Applications:
• HPLC and organic solvent sample preparation and clean up
• Dissolution sample analysis, especially high-binding tablets or cap
• Hydrophilic membrane provides excellent flow rates and extremely low binding coefficients
• Superior choice for biological assays, gel capsule dissolution testing, protein sample matrixes
• Compatible with a wide range of aqueous and organic-based sample environments
• Recommended for reverse phase and normal phase HPLC
Target2™ Syringe Filters are an ideal choice for general purpose laboratory use. Robust and reliable, they deliver excellent performance at an attractive price. They provide cleaner sample extracts by removing interfering materials and fine particles.
• Low extractable membranes and housing
• HPLC performance tested
• Plain polypropylene housing
• 30 mm products pressure rated to 100 psi
• Enhanced luer lock inlet which provides secure attachment to syringes
• Low hold-up volume allows for the treatment of small sample volumes with minimal sample loss
Specifications
• Membrane: HPLC certified regenerated cellulose
• Protein binding: <5 g/cm2
• Porosities: 0.20 m and 0.45 m
• Autoclave: Sterilize by dry heat at 121°C for 15 minutes
• Pre-filter (if fitted) GMF 1 m
Applications:
• HPLC and organic solvent sample preparation and clean up
• Dissolution sample analysis, especially high-binding tablets or cap
Certificates of Analysis
This service is currently unavailable!