Small Volume Microplates

Corning™ 384-Well Low-Volume Solid Microplates Available on GSA/VA Contract for Federal Government customers only.

Same low reagent volumes as 1536-well plates without the need for new instrumentation

Corning™ 96-Well Half-Area Plates Available on GSA/VA Contract for Federal Government customers only.

Saves on valuable reagents by reducing the amount of reagent required per well, while retaining the ability to be read in standard microplate readers. Corning™ 96-Well Half Area Microplates are an economical solution for all of your assay diagnostic needs and are available in different colors and treatments.

Corning™ 96-Well Clear-Bottom Half-Area Microplates Available on GSA/VA Contract for Federal Government customers only.

Designed with optically clear flat bottom that permits direct microscopic viewing. Corning™ 96-Well Clear Bottom Half Area Microplates provide an ideal solution for use in cell-based assays and microscopy applications allowing top or bottom reading capability.

BioTek™ Take3™ and Take3 Trio Micro-Volume Microplates PROMO

Take3 and Take3 Trio Micro-Volume plates expand functionality of the BioTek microplate spectrophotometers, multi-mode and Hybrid readers, while reducing sample volumes, costs and time required for routine quantification

Greiner Bio-One FLUOTRAC™ 200 96-Well Half Area Microplate

Feature micro-thin µClear™ bottoms for exceptional optical properties.

BrandTech™ PCR 8-Strip Caps Available on GSA/VA Contract for Federal Government customers only.

Manufactured from polypropylene without lubricants or chemical additives that can contaminate reagents and samples. BrandTech™ PCR 8-Strip Caps are autoclavable and RNase-, DNase-, and DNA-free. Domed caps are available in a variety of colors for sample identification.

BioTek™ Take3™ and Take3 Trio Micro-Volume Microplates Available on GSA/VA Contract for Federal Government customers only.

Take3 and Take3 Trio Micro-Volume plates expand functionality of the BioTek microplate spectrophotometers, multi-mode and Hybrid readers, while reducing sample volumes, costs and time required for routine quantification

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