Microplates
Applied Biosystems™ MicroAmp™ Optical 96-Well Reaction Plate
Designed to provide unmatched temperature accuracy and uniformity for fast, efficient PCR amplification
Applied Biosystems™ MicroAmp™ Optical Adhesive Film
Reduces chance of well-to-well contamination and sample evaporation when applied to a microplate
Thermo Scientific™ Clear Flat-Bottom Immuno Nonsterile 96-Well Plates
Choose from four binding surfaces for reliable and reproducible results in colormetric assays.
Applied Biosystems™ MicroAmp™ Fast Optical 96-Well Reaction Plate with Barcode, 0.1 mL
Reduces PCR reaction time from 2 hours to as little as 25 minutes
Thermo Scientific™ Abgene™ 96 Well 0.8mL Polypropylene Deepwell Storage Plate
0.8 mL deepwell storage plates for cell culture or sample storage applications.
Thermo Scientific™ Nunc™ MicroWell™ Plates with Nunclon™ Delta Surface, lid
Nunc MicroWell Plates with Nunclon Delta Surface are ideal in a wide variety of applications, including cloning experiments and tissue culture-based analytical systems.
Thermo Scientific™ Nunc™ 96-Well Polypropylene Storage Microplates
Store samples safely with these low-binding 96-well polypropylene plates, which will not allow DNA or proteins to bind and allow for complete sample recovery.
Thermo Scientific™ Adhesive PCR Plate Foils
Prevent sample evaporation during PCR, thermal cycling, or sample storage with this adhesive film.
Corning™ Microplate Aluminum Sealing Tape
Provides tight seal to minimize evaporation and condensation. Corning™ 384 Well Microplate Aluminum Sealing Tape enables oil-free operation when used with thermocyclers with heated lids.
Thermo Scientific™ Nunc™ 96-Well Polypropylene DeepWell™ Storage Plates
Store samples and compound libraries using chemical-resistant Thermo Scientific™ Nunc™ 1.0 and 2.0mL DeepWell™ Plates with Shared-Wall Technology.
Applied Biosystems™ MicroAmp™ Optical 384-Well Reaction Plate with Barcode
Designed to provide unmatched temperature accuracy and uniformity for fast, efficient PCR amplification
Applied Biosystems™ MicroAmp™ Optical 96-Well Reaction Plate with Barcode
Optimized to provide unmatched temperature accuracy and uniformity for fast, efficient PCR amplification
Corning™ 96-Well Clear Ultra Low Attachment Microplates
Covalently bonded hydrogel minimizes cell attachment, protein absorption, enzyme activation and cellular activation. Corning™ 96-Well Clear Ultra Low Attachment Microplates allow for lentivirus transduction of human osteoclast precursor cells.
Fisherbrand™ 96-Well DeepWell™ Polypropylene Microplates
Ideal for storage because of the low-binding characteristics of polypropylene
Thermo Scientific™ Armadillo PCR Plate, 384-well, yellow, white wells
Optimize high throughput robotic PCR and qPCR applications with these ultra-rigid 384-well PCR plates with polycarbonate frames and polypropylene wells.
Thermo Scientific™ Easy Peel Heat Sealing Foil
Suitable for long-term, low-temperature storage
Thermo Scientific™ Nunc™ F96 MicroWell™ Polystyrene Plate, black
Ensure consistent and reliable results using black and white plates optimized for robotics, plate readers and liquid handling systems.
Greiner Bio-One™ Non-treated 96-Well Microplates
Manufactured without surface treatment to create low biomolecular binding for sensitive biochemical screening applications. Greiner Bio One™ Non-treated 96-Well Assay Microplates are available in polystyrene or polypropylene with a range of well designs.
Thermo Scientific™ Abgene 96 Well Polypropylene Storage Microplates
Streamline your molecular biology applications with these 96-well Polypropylene Storage Plates.
Greiner Bio-One™ EASYseal™ Adhesive Sealer
Protects against evaporation and contamination. Greiner Bio-One™ VIEWseal™ Adhesive Sealer is a standard adhesive foil for seal microplates.
Greiner Bio-One™ F-Bottom 96-Well Assay Microplates
Features a chimney-like arrangement of the wells that allows each well to stand on its own. Greiner Bio One™ F-Bottom 96-Well Assay Microplates are constructed of polystyrene, a highly clear polymer with excellent optical properties making it ideal for precise optical measurements. Polystyrene is also characterized by its ability to bind biomolecules, such as proteins and is suitable for work with cell cultures.
Thermo Scientific™ Armadillo PCR Plate, 96-well, yellow, white wells
Optimize robotic applications with these ultra-rigid 96-well PCR plates with U-bottom wells, available in various colors.
Eppendorf™ Sealing Mat for Deep Well Plates 96/1000 and 96/500
Provides secure and reliable closure and in incubation, processing, storage and archiving of samples.
Thermo Scientific™ PCR Plate, 96-well, low profile, skirted, yellow
96-well full-skirted PCR automation compatible plate for use in PCR and qPCR applications.
Thermo Scientific™ Sterilin™ Clear Microtiter™ Plates
Store and transport samples or perform microbiology screenings, EIA/absorbance assays and serology work with 96-well Thermo Scientific™ Sterilin™ Clear Microtiter™ Plates.
Thermo Scientific™ Nunc™ MicroWell™ 96-Well Microplates
These microplates are optimized for robotics, automated readers and liquid handling systems. Ideal for antibiotic screens, cell-based assays and screening compounds.
Thermo Scientific™ Nunc™ 96-Well Polystyrene Round Bottom Microwell Plates
Perform automated applications more precisely with these round-bottom plates, which are available with and without cell culture treatment.
Eppendorf™ Polypropylene Microplates with Recovermax™ Well Design
Experience a new dimension of transparency with Eppendorf™ Microplates. Eppendorf Polypropylene Microplates with Recovermax™ Well Design provide the optimal solution for your application needs. High robustness and precision allow for reliable pipetting, control and recovery of samples.
Thermo Scientific™ Black 96-Well Immuno Plates
Perform quantitative and qualitative immunoassays like ELISA and binding assays with a choice of three surface types.
Thermo Scientific™ 96-Well UV Microplate
Perform DNA and protein quantitation in 260nm and 280nm range with Thermo Scientific™ Nunc™ 96-Well UV Microplates.