Microplates

Photo of Eppendorf twin.tec™ PCR Plates
Eppendorf twin.tec™ PCR Plates are manufactured utilizing "twin-shot technology," an innovative injection mold process. This unique method combines two of the best performing materials: virgin polypropylene is used for the wells; polycarbonate, an especially rigid material, forms the plate deck and skirt. Polypropylene provides the best inert, non-wetting surface that prevents DNA, RNA, and enzymes from binding, and it improves recovery from wells even when working with minute volumes.
Photo of Eppendorf® Polypropylene Microplates 96 Well

The new Eppendorf® Polypropylene Microplates set new standards in terms of transparency, purity and stability. With the easy to read OptiTrack® matrix and a clarity, unique and unbeaten for polypropylene microplates, the identification of the correct plate or an individual well is easier, less error-prone and up to 30 % faster.

Photo of Eppendorf® Polypropylene Microplates 384 Well

The new Eppendorf® Polypropylene Microplates set new standards in terms of transparency, purity and stability. With the easy to read OptiTrack® matrix and a clarity, unique and unbeaten for polypropylene microplates, the identification of the correct plate or an individual well is easier, less error-prone and up to 30 % faster.

Photo of Eppendorf® RecoverMax Deepwell Plates 96 and 384, PCR Clean

Eppendorf® Deepwell Plates 96 and 384 sets the new standard for deepwell plates with new RecoverMax well designs. The well geometry enables high-speed pipetting, excellent mixing and high-speed centrifugation to accelerate your manual as well as your automated work processes. Sophisticated colors and coding make reading, orientation and manual handling easier and faster. Colored frames are laser inscribed (UV- and chemical-resistant) high contrast alphanumeric labeling for easy well well identification.

Photo of Eppendorf® RecoverMax Deepwell Plates 96 and 384, Sterile

Eppendorf® Deepwell Plates 96 and 384 sets the new standard for deepwell plates with new RecoverMax well designs. The well geometry enables high-speed pipetting, excellent mixing and high-speed centrifugation to accelerate your manual as well as your automated work processes. Sophisticated colors and coding make reading, orientation and manual handling easier and faster. Colored frames are laser inscribed (UV- and chemical-resistant) high contrast alphanumeric labeling for easy well well identification. 

Photo of Eppendorf Capping Aid
The Capping Aid is a practical tool for easy, effective sealing of 0.2 mL PCR test tubes and PCR plates using Cap Strips. Several tubes can be sealed smoothly and rapidly at once, and the tight seal greatly reduces the risk of residual condensation and contamination.
Photo of Nunc 96-Well Microwell Plates-Polystyrene

Nunc 96-Well Polystyrene Microwell Plates help perform automated applications more precisely. They are available with or without cell culture treatment. Untreated polystyrene is hydrophobic and is suited for growth of suspension cultures that can proliferate and grow without attachment. Clear polystyrene has excellent optical properties making it ideal for optical measurements. The plates are optimized for robotics, automated readers and liquid handling systems, and are ideal for agglutination assays. Customized bar coding is available.

Photo of Nunc 384 Well Plate and OmniTray
The 384 Well Plate with lid has the same external dimensions as a 96 well plate with a 24 x 16 well format. Each well measures 4.5mm center to center making it compatible with robotics and manual multichannel pipettes. The 384 Well Plate is ideal for arraying nucleic acid libraries in high volume labs using robotics. One 384 Well Plate is equal to four 96 well plates, maximizing freezer space. The OmniTray is a single-well plate with lid having the same external dimensions as a 96 well plate, allowing geometric indexing.
Photo of Nunc Replication System
These products are designed for use with the 384 Well Plate and OmniTray. Applications include: replication of recombinant DNA libraries, filter inoculation for colony hybridization and phage typing. Pall Biodyne B Nylon Membrane This membrane is precut to fit the OmniTray for manual or automated arraying on a solid support. The OmniTray can be filled with 35mL of nutrient agar and overlaid with this membrane to promote the growth of bacterial clones and then used for hybridization studies.
Photo of Nunc MicroWell Mini Trays
Applications for these trays include serotyping, microcytotoxicity, cell cloning studies and DNA sequencing reactions. Freezer and incubator space is optimized with the low profile trays and the S-trays. Complete with lids and keyed tabs for proper orientation. Well spacing is standard and is compatible with most automated processing systems and microscopes. Large, raised alpha-numeric coordinates make well identification easy. The wells are inverted truncated cones with a working volume of 10µl. A unique surface treatment is applied to each well to maximize sample and reagent mixing.
Photo of Nunclon MicroWell Plates
Plates are made from Nunclon for exceptional optical clarity and have special surface treatment ensuring optimal cell attachment and growth. Plates fit easily into the range of ancillary equipment already available (e.g. shakers, automatic pipette dilution machines) The flat bottom 96 well plate has raised wells ensuring uniform well bases and excellent optical quality. The design also permits individual numbering of the wells under the microscope. On the round bottom 96 well plate, each well has a raised rim.
Photo of Eppendorf® Plate Lid for MTP and DWP Plates
Eppendorf® Plate Lid for MTP and DWP Plates. (Sample Photo Shown. Individual models or products may differ from the image shown.)
Photo of Eppendorf® Sealing Mats for Microplates
Mats and adhesive seals ca be manually applied without the need for additional equipment. Since they don't require heating there is less risk for sample damage. Mat are considered re-usable since the can be cleaned and autoclaved for sterile applications. 
Photo of Eppendorf® Adhesive Seals For Microplates

Eppendorf® offers high-performance sealing options for almost every application. For incubation and storage, for colorimetric ELISA as well as fluorescence and luminescence assays, sample processing and cell culture as well as PCR and qPCR amplification.

Photo of Eppendorf® Polypropylene Assay Microplates
The new Eppendorf® Polypropylene Assay Microplates set new standards in terms of transparency, purity and stability.

With the easy to read OptiTrack® matrix and a clarity, unique and unbeaten for polypropylene microplates, the identification of the correct plate or an individual well is easier, less error-prone and up to 30% faster. Designed for use with top-reading luminometers and flurometers. 

Photo of Nunc-Immuno TSP
TSP (Transferable Solid Phase) is similar to a 96 well plate lid with 96 attached pins. When a TSP unit is placed over a 96 well plate, the pins are immersed in the plate wells. The sterile TSP is useful when replating and screening 96 well plates containing transformants or library clones. A sterile TSP is available for screening hybridoma cultures or expression libraries. The TSP may be used to absorb mixed proteins or antibodies directly from cultures.
Photo of Nunc Amplification Workstation
Nunc's Amplification Workstation is composed of three components: GeNunc Tube Tray, GeNunc Holder, and Polystyrene Lid. The GeNunc Tube Tray and Holder work in concert with one another forming a workstation that holds up to 96, 0.2mL PCR tubes. The 8 x 12, 96 well configuration of the GeNunc Tube Tray is designed to support 0.2mL PCR tubes in an individual or strip format. The tube tray slides into the holder for use before and after PCR sample processing. Sample identification is enhanced through alpha-numeric coordinates and a one way, keyed fit into the holder.
Photo of Nunc 96-Well V-Bottom MicroWell Plates-Polypropylene

Use Nunc 96-Well V-Bottom Polypropylene MicroWell Plates to achieve complete sample recovery. The V-bottom well geometry accommodates small volumes used in molecular biology procedures. They are the ideal storage plate as polypropylene has a lower binding capacity so proteins or DNA will not bind. Each well has a 300µL capacity. Plates are non-sterile and have untreated surface coating. Withstands temperatures from −80° to +121°C. 

(Sample Photo Displayed. Individual items may differ from the image shown.)