Equivalent in size to 12 x 32 mm vials. Will fit any autosampler that accommodates standard 12 mm x 32mm profile vials\n(Needle height of the autosampler may need adjusting)
Material
Chamber: Borosilicate Glass\nPlunger Outer Housing: Polypropylene\nPlunger Inner Storage Vial: Borosilicate Glass\nFilter media: As Specified\nSepta: Silicone with PTFE Liner\nCap: Polypropylene
Application
Routine UHPLC/HPLC analysis.\nComposite assays.\nContent uniformity testing.\nProtein precipitation.\nSolubility testing.\nDissolution testing.\nSample filtration.\nUse with any compound that requires protection from light, such as catecholamines or vitamins.
Housing
Borosilicate glass and Polypropylene (PP)
Pore Size
0.2 µm
Color
Amber
Capacity Max.
Chamber (Unfiltered Sample): 500 μl; Inner Storage Vial (Filtered Sample) : 330 μl; Recommended Minimum Filtering Volume: 220 μl placed in the Chamber to obtain 50 μl in Inner Storage Vial
Equivalent in size to 12 x 32 mm vials. Will fit any autosampler that accommodates standard 12 mm x 32mm profile vials\n(Needle height of the autosampler may need adjusting)
Material
Chamber: Borosilicate Glass\nPlunger Outer Housing: Polypropylene\nPlunger Inner Storage Vial: Borosilicate Glass\nFilter media: As Specified\nSepta: Silicone with PTFE Liner\nCap: Polypropylene
Application
Routine UHPLC/HPLC analysis.\nComposite assays.\nContent uniformity testing.\nProtein precipitation.\nSolubility testing.\nDissolution testing.\nSample filtration.\nUse with any compound that requires protection from light, such as catecholamines or vitamins.
Housing
Borosilicate glass and Polypropylene (PP)
Pore Size
0.2 µm
Color
Amber
Capacity Max.
Chamber (Unfiltered Sample): 500 μl; Inner Storage Vial (Filtered Sample) : 330 μl; Recommended Minimum Filtering Volume: 220 μl placed in the Chamber to obtain 50 μl in Inner Storage Vial
Equivalent in size to 12 x 32 mm vials. Will fit any autosampler that accommodates standard 12 mm x 32mm profile vials\n(Needle height of the autosampler may need adjusting)
Material
Chamber: Borosilicate Glass\nPlunger Outer Housing: Polypropylene\nPlunger Inner Storage Vial: Borosilicate Glass\nFilter media: As Specified\nSepta: Silicone with PTFE Liner\nCap: Polypropylene
Application
Routine UHPLC/HPLC analysis.\nComposite assays.\nContent uniformity testing.\nProtein precipitation.\nSolubility testing.\nDissolution testing.\nSample filtration.\nUse with any compound that requires protection from light, such as catecholamines or vitamins.
Housing
Borosilicate glass and Polypropylene (PP)
Pore Size
0.2 µm
Color
Amber
Capacity Max.
Chamber (Unfiltered Sample): 500 μl; Inner Storage Vial (Filtered Sample) : 330 μl; Recommended Minimum Filtering Volume: 220 μl placed in the Chamber to obtain 50 μl in Inner Storage Vial
Equivalent in size to 12 x 32 mm vials. Will fit any autosampler that accommodates standard 12 mm x 32mm profile vials\n(Needle height of the autosampler may need adjusting)
Material
Chamber: Borosilicate Glass\nPlunger Outer Housing: Polypropylene\nPlunger Inner Storage Vial: Borosilicate Glass\nFilter media: As Specified\nSepta: Silicone with PTFE Liner\nCap: Polypropylene
Application
Routine UHPLC/HPLC analysis.\nComposite assays.\nContent uniformity testing.\nProtein precipitation.\nSolubility testing.\nDissolution testing.\nSample filtration.\nUse with any compound that requires protection from light, such as catecholamines or vitamins.
Housing
Borosilicate glass and Polypropylene (PP)
Pore Size
0.2 µm
Color
Amber
Capacity Max.
Chamber (Unfiltered Sample): 500 μl; Inner Storage Vial (Filtered Sample) : 330 μl; Recommended Minimum Filtering Volume: 220 μl placed in the Chamber to obtain 50 μl in Inner Storage Vial
The membrane is particularly effective in applications requiring higher flow rates and larger volume filtration including clarification or sterilization of aqueous solutions, particulate analysis and removal, air monitoring and microbial analysis. Other applications include:\nClarification or sterilization of aqueous solutions\nCytology\nAir monitoring\nHPLC samples (aqueous)\nVirus concentration\nParticulate analysis\nBiological assays\nFood microbiology including enumeration of E. coli in foods\nBacteriological studies\nParticle counting from liquids and aerosols\nYeasts and molds.
The membrane is particularly effective in applications requiring higher flow rates and larger volume filtration including clarification or sterilization of aqueous solutions, particulate analysis and removal, air monitoring and microbial analysis. Other applications include:\nClarification or sterilization of aqueous solutions\nCytology\nAir monitoring\nHPLC samples (aqueous)\nVirus concentration\nParticulate analysis\nBiological assays\nFood microbiology including enumeration of E. coli in foods\nBacteriological studies\nParticle counting from liquids and aerosols\nYeasts and molds.
The membrane is particularly effective in applications requiring higher flow rates and larger volume filtration including clarification or sterilization of aqueous solutions, particulate analysis and removal, air monitoring and microbial analysis. Other applications include:\nClarification or sterilization of aqueous solutions\nCytology\nAir monitoring\nHPLC samples (aqueous)\nVirus concentration\nParticulate analysis\nBiological assays\nFood microbiology including enumeration of E. coli in foods\nBacteriological studies\nParticle counting from liquids and aerosols\nYeasts and molds.
The membrane is particularly effective in applications requiring higher flow rates and larger volume filtration including clarification or sterilization of aqueous solutions, particulate analysis and removal, air monitoring and microbial analysis. Other applications include:\nClarification or sterilization of aqueous solutions\nCytology\nAir monitoring\nHPLC samples (aqueous)\nVirus concentration\nParticulate analysis\nBiological assays\nFood microbiology including enumeration of E. coli in foods\nBacteriological studies\nParticle counting from liquids and aerosols\nYeasts and molds.
The membrane is particularly effective in applications requiring higher flow rates and larger volume filtration including clarification or sterilization of aqueous solutions, particulate analysis and removal, air monitoring and microbial analysis. Other applications include:\nClarification or sterilization of aqueous solutions\nCytology\nAir monitoring\nHPLC samples (aqueous)\nVirus concentration\nParticulate analysis\nBiological assays\nFood microbiology including enumeration of E. coli in foods\nBacteriological studies\nParticle counting from liquids and aerosols\nYeasts and molds.
The membrane is particularly effective in applications requiring higher flow rates and larger volume filtration including clarification or sterilization of aqueous solutions, particulate analysis and removal, air monitoring and microbial analysis. Other applications include:\nClarification or sterilization of aqueous solutions\nCytology\nAir monitoring\nHPLC samples (aqueous)\nVirus concentration\nParticulate analysis\nBiological assays\nFood microbiology including enumeration of E. coli in foods\nBacteriological studies\nParticle counting from liquids and aerosols\nYeasts and molds.
Cellulose filter papers used for general filtration and exhibiting particle retention levels down to 2.5 µm.
Centrifugal devices
Filter Plates
Cytiva filter plates offer a selection of membranes, sample well volumes, and tip configurations allowing researchers to select the right plate for their high throughput application while complying with ANSI/SLAS standards for use in robotic systems.
Glass and quartz microfiber filter
Glass and quartz microfiber filter papers for your filtration workflow.
Immunodiagnostics
Pads and membranes for lateral flow, flow through, blotting, and dipstick assays.
Syringeless filters
Syringe filters - non-sterile
Syringe filters - sterile
Tangential flow filtration for labscale
Thimbles
Cellulose, glass, and quartz thimbles for your filtration workflow.
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