CLS431219
Corning® syringe filters
cellulose acetate membrane (surfactant-free), diam. 28 mm, pore size 0.2 μm
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Synonym(s):
disposable syringe filters, sterile syringe filters, syringe filters
UNSPSC Code:
41104922
NACRES:
NB.24
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material
acrylic copolymer housing
cellulose acetate membrane (surfactant-free)
sterility
sterile
packaging
case of 50
manufacturer/tradename
Corning 431219
diam.
28 mm
pore size
0.2 μm
fitting
female Luer inlet (lock)
male Luer outlet (slip)
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General description
These Corning syringe filters have acrylic copolymer housings, female luer lock inlets and male luer slip outlets.
- SFCA-PF (surfactant-free cellulose acetate with prefilter) membranes provide the lowest protein binding and have an integral glass fiber prefilter for extra filtering capacity
- 100% integrity tested, sterile and certified nonpyrogenic and noncytotoxic
- Manufactured in accordance with ISO 9002 standards
Corning syringe filters are 100% integrity tested and are certified nonpyrogenic and noncytotoxic and are manufacturered in accordance with ISO 9002 standards. A variety of membranes are available to meet your needs.
PES for low protein binding and faster flow rates; surfactant-free cellulose acetate (SFCA) for the lowest protein binding; PTFE for chemical resistance; and regenerated cellulose (RC) the best choice for DMSO compatibility.
PES for low protein binding and faster flow rates; surfactant-free cellulose acetate (SFCA) for the lowest protein binding; PTFE for chemical resistance; and regenerated cellulose (RC) the best choice for DMSO compatibility.
Legal Information
Corning is a registered trademark of Corning, Inc.
Certificates of Analysis (COA)
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Mattia Rocco et al.
Journal of the American Chemical Society, 136(14), 5376-5384 (2014-03-25)
The formation of a fibrin network following fibrinogen enzymatic activation is the central event in blood coagulation and has important biomedical and biotechnological implications. A non-covalent polymerization reaction between macromolecular monomers, it consists basically of two complementary processes: elongation/branching generates
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