A microplate is a critical part of your discovery process. Microplates have the capability to generate valuable, information-rich data that bring great insights into discovery screening.
Microplate planarity and inaccurate data collection are common issues caused by microplates that are not carefully designed for the unique challenges of sample screening which can result in missed data points, sample re-screening, missed project timelines, and ultimately higher costs.
Drawing on many years of experience in high throughput screening, PerkinElmer’s expert team has developed microplates that address the most common screening challenges. Our microplates have been engineered to deliver the highest quality data for high throughput screening as well as imaging applications.
Footprint dimensions meet the SBS industry standard, guaranteeing compatibility with microplate-based instrumentation
Carefully monitored microplate planarity to ensure superb data and image acquisition
Custom microplate services including barcoding, custom packaging, as well as plate surface coatings to fit your application
Full range of validated reagents and instruments to compliment microplates
By using PerkinElmer’s microplates specifically engineered for high throughput screening and imaging applications, you can be confident that you’ll acquire high quality results providing more information-rich data and experience fewer re-screens reducing your overall screening costs.
Shallow-well 384-well gray microplate for lower volume and increased sensitivity. The gray high sensitivity (HS) microplate combines the benefits of lower background with higher signal in luminescence assays.
24-well tissue culture treated (TC-treated) microplate with black well walls and clear bottom. This plate is recommended for radiometric, SPA, or cell-based fluorescence or luminescence assays. The clear bottom enables microscopic visualization or bottom reading measurements.
96-well black frame microplate with white wells and high protein binding treatment for radiometric and luminescence assays. The white wells and black matrix maximize signal while ensuring low crosstalk. The high bind treatment enables coating with your own biomolecule-of-interest.
Basic 384-well FlashPlates contain only the scintillant, and are typically used as the base plate for coating a protein, enzyme substrate, attaching live cells, or other material of interest to build an assay upon.