Assay Microplates
Untreated, polystyrene, assay microplates with working well volumes from 1 to 10µL
Microplates have rounded-square wells in a standard ANSI plate footprint.
384-Well Conical Bottom Polypropylene Plates
Thermo Scientific* 384-well polypropylene plates provide cost savings when storing compounds for small volume applications.
96 W UV Microplate
Thermo Scientific Nunc UV transparent 96 well microplates are ideal for DNA and protein quantitation in 260nm and 280nm range.
96-Well Microtiter* Microplates
Thermo Scientific* 96-Well Microtiter Microplates are ideal for micro-volume applications such as storage, sample or reagent transfer, serial dilution, hemagglutination, blood typing and compliment fixation.
Immulon* Immunoassay Plates and Strip Assemblies
Thermo Scientific* Immulon Strip plates offer three binding surfaces and two well shapes for enhanced and reproducible results in immunoassay applications.
Immuno Plates Clear
Thermo Scientific* Nunc*, Immulon* and Microtiter* clear plates are ideal for quantitative and qualitative solid phase immunoassays, e.g. ELISA, and binding assays.
Immuno Plates White and Black
Thermo Scientific* white and black plates for quantitative and qualitative immunoassays like ELISA and binding assays are compatible with common instruments.
Immuno Standard Modules Clear
Thermo Scientific* Nunc*, Immulon* and Microtiter* module plates are developed for ELISA techniques and fit standard equipment.
Immuno Standard Modules White and Black
Thermo Scientific* white and black standard modules are used for fluorescence and luminescence based immunoassays and binding assays and fit standard equipment.
Microlite White Microtiter Plates
Thermo Scientific* Microlite White Microtiter strip plates provide consistent binding, high reflectivity, and low crosstalk for use in luminescent immunoassays and related techniques.
Nunc* 1536 Well High Base Microplates
Thermo Scientific* Nunc 1536 Well High Base Microplates are ideal for High Throuhput Screening; the skirted design around the base of the plate is optimal for robotic handling.
