PCR Plates
PCR plates are designed for thermal cycling, qPCR, and high-throughput molecular biology workflows, providing consistent well geometry and reliable heat transfer for accurate amplification results. This category includes 96 well PCR plates in 0.1 mL and 0.2 mL formats, available in both semi-skirted and non-skirted designs, as well as 384 well PCR plates with 40 µL wells for high-density applications. Manufactured from high-quality polypropylene, PCR plates offer low binding, chemical resistance, and durability under repeated thermal cycling while maintaining compatibility with standard thermocyclers and automation systems.
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96-Well PCR plate 0.2mL Semi Skirt with Break Points and Clear LetteringSKU: 100C0-2B
$34.99 - $329.99 -
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Selecting PCR Plates for Your Workflow
Choosing the right PCR plate is essential for ensuring uniform heat transfer, minimizing sample loss, and maintaining compatibility with your equipment.
Plate format:
96 well PCR plates are ideal for standard workflows, while 384 well plates with 40 µL wells support high-throughput applications and reduced reagent usage.
Volume options:
0.1 mL and 0.2 mL plates are commonly used for PCR and qPCR, offering flexibility depending on reaction volume and instrument requirements.
Skirt type:
Semi-skirted plates provide stability and labeling space, while non-skirted plates offer flexibility for different thermocycler formats.
Material:
Polypropylene construction ensures optimal thermal conductivity, chemical resistance, and low sample binding.
Well consistency:
Uniform well geometry supports consistent amplification and reliable results across all wells.
Compatibility:
Designed to work with standard thermocyclers, qPCR systems, and sealing solutions such as films and mats.
High-throughput capability:
384 well plates allow for increased sample processing and efficiency in large-scale workflows.
For most PCR workflows, 96 well plates in 0.1 mL or 0.2 mL formats provide reliable performance, while 384 well plates are ideal for high-throughput applications requiring efficiency and reduced reagent consumption.