6 Well Low Evap EDGE Cell Culture Plate, Flat, Non-Treated, Sterile, Individually Wrapped In Peelable Film (Cat. No. 714001)
Key Features
Individually Wrapped - 1 per blister pack - 50 plates per case
6 wells
Liquid filled channels surround wells to eliminate edge effect
Non-Treated for suspended cells
Flat bottom wells
9.5 cm² growth area per well
1.9~2.9/1900uL-2900uL media per well
Product Details
Optically clear USP grade VI virgin polystyrene - ideal for microscopy
Alphanumeric markings for easy sample ID
SBS/ANSI Footprint, suitable for automation
Raised edges to slow evaporation
Small feet on the bottom of the plate to prevent scratching microscope objectives
Clear lot number printed on each flask for traceability
Notched bottoms with raised edges for stable stacking
Quality Details
Manufactured in cGMP (21 CFR part 820/821) compliant factory
Produced in ISO 13485:2016 and ISO 9001 facility
Molded and packed in ISO 7 cleanroom
E-beam sterilized and lot tested to SAL 10^-6
Lot tested free of pyrogens USP 85
Lot tested free of cytotoxins/pyrogens In Vivo USP 88 and In Vitro USP 87
Lot tested free DNase/RNase and DNA
Lot tested free BSE/TSE
Certified free of animal products
All multiwell plates are subject to the “edge effect.” Wells along the perimeter are more exposed and less insulated than interior wells, causing higher temperatures and evaporation rates. This creates a temperature and evaporation gradient across the plate that can lead to inconsistent experimental results.
Nest offers a cost-effective solution with our low-evaporation EDGE plates. These plates feature channels surrounding the wells that can be filled with liquid (such as sterile water) to serve as a thermal buffer. Because the channels are interconnected, heat is evenly distributed across the plate, effectively eliminating the edge effect.
Like all Nest culture plates, EDGE plates include alphanumeric markings for easy sample identification and raised well rims to reduce evaporation and cross-contamination. Plates also feature grooves and feet for secure stacking, along with an SBS/ANSI footprint for seamless compatibility with automated plate handlers—ideal for high-throughput workflows.
