产品名称
Corning® 384 Well Deep Well Plate, clear polypropylene, V-bottom, sterile, deep well, lid: no, pack of 5
material
V-bottom
clear bottom
clear polypropylene
polypropylene (plates, blocks and sealing mats)
square translucent wells
sterility
sterile
feature
lid: no
lid: no
skirt
deep well
packaging
pack of 5
case of 50
manufacturer/tradename
Corning 3342
size
384 wells
well volume
240 μL
color
clear
suitability
suitable for (general storage, liquid handling; automated applications)
binding type
non-treated surface
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General description
- Ideal for high throughput applications requiring added volume
- Improved sample recovery through the specially designed wells that feature a square geometry that tapers to a V-bottom point
- Solvent resistant polypropylene provides compatibility with many common organic solvents (e.g. DMSO, ethanol, methanol)
- Certified DNase- and RNase-free
Corning offers a complete range of polypropylene storage systems consisting of plates, blocks, and sealing mats. All plates and blocks are made from polypropylene for solvent resistance and are ideal for compound library, combinatorial chemistry and genomics applications. The 384 well polypropylene plates and blocks are built to proposed industry standard footprint. All plates and blocks are automation-friendly and solvent resistant. The 384 well plates and blocks are certified DNase/RNase free and feature rounded bottoms for optimal liquid handling and a rounded square-well geometry for reduced wicking.
Legal Information
Corning is a registered trademark of Corning, Inc.
Louise Isager Ahl et al.
Plant, cell & environment, 42(8), 2458-2471 (2019-04-14)
Plants have evolved a multitude of adaptations to survive extreme conditions. Succulent plants have the capacity to tolerate periodically dry environments, due to their ability to retain water in a specialized tissue, termed hydrenchyma. Cell wall polysaccharides are important components
Louise I Ahl et al.
Journal of AOAC International, 101(6), 1720-1728 (2018-06-14)
Background: As the popularity of Aloe vera extracts continues to rise, a desire to fully understand the individual polymer components of the leaf mesophyll, their relation to one another, and the effects they have on the human body are increasing.
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