Showing all 45 results
Filters
Sort results
Reset
Apply
Compatibility – Ideal for use with a variety of pipets and pipetters, both manual and… Show more (+) Compatibility – Ideal for use with a variety of pipets and pipetters, both manual and electronic.Comfort – Reduces arm and wrist strain allowing pipetting at a comfortable 45° angle.Ideally Sized – Unique design accommodates 200 ml, 500 ml and 1L square and round bottles.Brochures.pdf Show less (-) |
|
Crystal Grade polystyrene is used for consistency in manufacture and maximum clarity, with easy to… Show more (+) Crystal Grade polystyrene is used for consistency in manufacture and maximum clarity, with easy to read crisp black printed graduations enabling the pipettes to be used accurately to ±1%. Sterile by gamma irradiation. These Pipettes fit all Quick Release Pipette Fillers. These pipettes are tested for pyrogenicity, and have pyrogen levels of less than 0.25 EU/ml. Show less (-) |
|
These transfer pipets are ideal for subculturing, harvesting, sampling 15, 50, 100 ml tubes and… Show more (+) These transfer pipets are ideal for subculturing, harvesting, sampling 15, 50, 100 ml tubes and flask, remove supernatant and media from cell cultures, wash cells, post centrifugation to remove cell layers, layer in columns / transfers in columns, loading gels, field testing, blood culture bottle, etc. These pipets come bulk packed and they are non-sterile. Show less (-) |
|
Different outside dimensions (OD’s) : – 0.57mm OD for loading protein… Show more (+) Different outside dimensions (OD’s) : – 0.57mm OD for loading protein gels (SDS Page gels). A white rack. – 0.37mm OD for 0.4mm thick polyacrylamide sequencing gels. A yellow rack. – 0.17mm OD for 0.2mm thick sequencing gels. A blue rack.83mm length (200µl tips) or 45mm length (10µl tips) […] Show less (-) |
|
Made from translucent polypropylene. Resistant to breakage. Blue graduations, ring mark and inscriptions. Ideal for… Show more (+) Made from translucent polypropylene. Resistant to breakage. Blue graduations, ring mark and inscriptions. Ideal for fluoro and silicate chemistry used. Recommended cleaning with mild alkaline detergent up to 60°C.NOTE: Exposure to temperatures above 60°C may cause volume changes. Show less (-) |
|
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 (-) |
|
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 (-) |
|
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 (-) |
|
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 (-) |
|
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 (-) |