These plates are ideal for use with robotic systems. Low profile, flat optical with individually removable 2D barcoded 0.1 ml polypropylene wells, rigid linear barcoded polycarbonate frame, cut corner H1.
- Each well has a unique 2D barcode on the flat bottom, frames contain linear barcode on side to allow identification of both plate and individual tubes within
- Free from DNase, RNase, human genomic DNA and endotoxin/pyrogen
- Ultra-smooth, uniform, thin-walled polypropylene wells for optimum PCR and real-time (RT-qPCR) results
- Low profile <0.1 ml (100 µl) working volume, <0.18 ml (180 µl) total well capacity when used with sealing options
- Maximum thermal conductivity for efficient heat transfer and precise thermal cycling
- Rigid polycarbonate frame provides mechanical stability of the plate
- Raised well rims prevent cross contamination and facilitate effective sealing for reduced evaporation
- Alphanumeric grid reference to aid well and sample identification
- Suitable for microscopy and small volume sample storage, compatible with standard multichannel pipettes
96 well, fully skirted, low profile format with each 2D barcoded, flat bottom tube inserted separately into the plate frame with linear barcode on the side, allowing for selection and removal of individual tubes from the plate. Individually removable from the rigid frame, while the rest of the tubes can remain in storage, reducing freeze-thawing of the whole plate. Fewer transfer steps as the same tube can be used for both (q)PCR and storage. Each tube can still be separated after sealing.
Due to their flat bottoms and stackability, these plates are well suited for small sample volume storage (such as compound libraries), with no risk of damaging the seal of the plate below. Additionally, the small well volume enables excellent sample recovery.
Each tube clicks into place in the frame ensuring tubes are secure once inserted. The rigid polycarbonate skirt of this design eliminates warping and distortion during PCR.
Together with the SBS footprint, this makes the plate suitable for use with robotic systems, ideal for both small and high throughput labs.
Frames can be re-used multiple times, depending on the application.
