Invitrogen™ Microplates for Fluorescence-based Assays
Microplates for fluorescence-based assays are 96- and 384-well, black-walled, clear-bottom microplates that are optimized for fluorescence-based applications on standard fluorescence microplate readers.
Thermo Scientific™ 96 Well Conical (V) Bottom Plate, Non-Treated Surface, Pack of 1
Nunc 96-Well Polystyrene Conical Bottom MicroWell Plates are optimized for robotics, automated readers and liquid handling systems.
Applied Biosystems™ MicroAmp™ 96-Well Tray/Retainer Set for Veriti™ Systems
Engineered for efficient sample processing
Applied Biosystems™ MicroAmp™ Splash-Free 96-Well Base
Used for centrifugation
Applied Biosystems™ MicroAmp™ 96-Well Tray/Retainer Set
Available in 96- or 24-well format
Thermo Scientific™ Nunc™ 96-Well Filter Plates
Efficiently perform plasmid DNA filtration, PCR filtration and vacuum filtration with these Thermo Scientific™ Nunc™ 96-well filter plates.
Applied Biosystems™ MicroAmp™ 96-Well Tray for VeriFlex™ Blocks
Engineered for efficient sample processing
Thermo Scientific™ 96-Well Plates for Pierce™ BCA-RAC Assay
Reducing agent-compatible version of our popular BCA Reagent Kit to measure protein concentration in samples containing DTT or BME thiol-reductants.
Applied Biosystems™ MicroAmp™ Multi Removal Tool
Easily removes caps from tubes, microplates from thermal cyclers and more
Thermo Scientific™ KingFisher™ Plastics for 24 deep-well format
Optimize your performance using Thermo Scientific™ KingFisher consumables designed specifically for use with the KingFisher Flex, Duo Prime, and Presto instruments.
Applied Biosystems™ MicroAmp™ 96-Well Base
Convenient for pre- and post-PCR sample processing
Applied Biosystems™ GeneAmp™ Thermal Isolation Frame
Balances thermal uniformity across 0.5mL GeneAmp PCR System 9700
Thermo Scientific™ Nunc™ Open Well Upper Structures
Versatile units in a choice of two materials
Applied Biosystems™ MicroAmp™ Optical 96-Well Reaction Plate with Barcode & Optical Caps
Optimized to provide unmatched temperature accuracy and uniformity for fast, efficient PCR amplification
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