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Low Binding Polymer TechnologyA manufacturing process that binds a perfluorooctyl polymer to polypropylene resin –… Show more (+) Low Binding Polymer TechnologyA manufacturing process that binds a perfluorooctyl polymer to polypropylene resin – resulting in an exposed trifluoromethyl surface.Precision and accuracy are increasingly important in molecular biology labs. A pipetter can be 99% accurate and precise, but the tip can com-promise performance by retaining or binding a sample. KENDALL’s low binding tips ensure […] Show less (-) |
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Low Binding Polymer TechnologyA manufacturing process that binds a perfluorooctyl polymer to polypropylene resin –… Show more (+) Low Binding Polymer TechnologyA manufacturing process that binds a perfluorooctyl polymer to polypropylene resin – resulting in an exposed trifluoromethyl surface.Precision and accuracy are increasingly important in molecular biology labs. A pipetter can be 99% accurate and precise, but the tip can com-promise performance by retaining or binding a sample. KENDALL’s low binding tips ensure […] Show less (-) |
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Low Binding Polymer TechnologyA manufacturing process that binds a perfluorooctyl polymer to polypropylene resin –… Show more (+) Low Binding Polymer TechnologyA manufacturing process that binds a perfluorooctyl polymer to polypropylene resin – resulting in an exposed trifluoromethyl surface.Precision and accuracy are increasingly important in molecular biology labs. A pipetter can be 99% accurate and precise, but the tip can com-promise performance by retaining or binding a sample. KENDALL’s low binding tips ensure […] Show less (-) |
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Low Binding Polymer TechnologyA manufacturing process that binds a perfluorooctyl polymer to polypropylene resin –… Show more (+) Low Binding Polymer TechnologyA manufacturing process that binds a perfluorooctyl polymer to polypropylene resin – resulting in an exposed trifluoromethyl surface.Precision and accuracy are increasingly important in molecular biology labs. A pipetter can be 99% accurate and precise, but the tip can com-promise performance by retaining or binding a sample. KENDALL’s low binding tips ensure […] Show less (-) |
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Very clean and durable all-purpose swabs (knit or nonwoven fabric heads) are acid and solvent… Show more (+) Very clean and durable all-purpose swabs (knit or nonwoven fabric heads) are acid and solvent resistant. Sealed edges build in high strength with no loose fibers or particulates. They are ideal for tough scrubbing around raised shapes. Cleanroom process gives you the lowest ionic, non-volatile residue and particle contaminants. Polypropylene handle. Show less (-) |
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Very clean and durable all-purpose swabs (knit or nonwoven fabric heads) are acid and solvent… Show more (+) Very clean and durable all-purpose swabs (knit or nonwoven fabric heads) are acid and solvent resistant. Sealed edges build in high strength with no loose fibers or particulates. They are ideal for tough scrubbing around raised shapes. Cleanroom process gives you the lowest ionic, non-volatile residue and particle contaminants. Polypropylene handle. Show less (-) |
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Laser Microscope Slide Tough-Tag® size 0.875" x 0.875" (22 x 22 mm)Ideal Use:… Show more (+) Laser Microscope Slide Tough-Tag® size 0.875" x 0.875" (22 x 22 mm)Ideal Use: general purpose. Show less (-) |
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Laser Slender Edge Tough-Tag® 2.625" x 0.1875"(67 mm x 5 mm)Ideal Use: for… Show more (+) Laser Slender Edge Tough-Tag® 2.625" x 0.1875"(67 mm x 5 mm)Ideal Use: for 384-well plates, half skirted PCR plates, petri dishes etc. Show less (-) |
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Laser Teeny Tough-Tag® 0.91" x 0.32" (23 mm x 8 mm)Ideal Use: 0… Show more (+) Laser Teeny Tough-Tag® 0.91" x 0.32" (23 mm x 8 mm)Ideal Use: 0.2ml PCR tubes Show less (-) |
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Pre-Cut Peel-Off Labels for Microcentrifuge Tube Tops |
