Deep well microplates from CAPP

96 deep well plates are the most recent addition to the CAPP Expell product range. They are packed with several features designed to give researchers an edge in their experimental work.

Designed by the highly skilled manufacturing experts at CAPP and drawing from its years of experience in producing laboratory consumables and plastics, the CAPP Expell range of 96 deep well plates provides exceptional value for money and reliable performance.

Furthermore, CAPP's 96 deep well plates contribute to heightened laboratory throughput by diminishing potential inefficiencies that might hinder progress. This product profile will spotlight the diverse attributes of CAPP's new 96 deep well plates, elucidating how each characteristic can help individuals accomplish more within their scientific experiments.

Contaminant-free deep well plates

Undetected contaminants pose a significant challenge for every life scientist, as they have the potential to disrupt entire experiments or research projects by interfering with critical chemical reactions and processes.

CAPP's 96 deep well plates are meticulously crafted to provide a contaminant-free sample-holding environment for various life science experiments.

Produced within a class 100K clean room environment using comprehensive automation, every non-sterile CAPP 96 deep well plate is assured to conform to and surpass all pertinent international quality benchmarks. All CAPP 96 deep well plates are certified free of common molecular contaminants like DNases, RNases, human DNA, and endotoxin inhibitors, meaning that they are suitable for use in delicate applications.

Thermostable 96 deep well plates

Developed for outstanding thermal stability, the new 96 deep well plates of CAPP are built to maintain their integrity at both cold and hot temperatures.

CAPP Expell 96 deep well plates can endure temperatures of up to 121 °C for high-temperature applications. This enables users to autoclave the deep well plates after an experimental run prior to disposing of biological samples.

CAPP 96 deep well plates also remain stable at temperatures as low as -80 °C, allowing users to store their samples in an ultra-low temperature freezer. The CAPP Expell 96 deep well plates’ large temperature range offers users a bigger scope of application.

Round-bottom deep well plates

CAPP 96 deep well plates are available in a round-bottom format that maximizes sample mixing efficiency. When preparing samples for protocols such as high-performance liquid chromatography (HPLC), gas chromatography-mass spectrometry (GC-MS), and liquid chromatography-mass spectrometry (LC-MS), among others, round bottom plates offer the optimal solution for sample handling.

With round bottom 96 deep well plates, it is easy to mix and attain outstanding sample homogeneity for more efficient separations. Just like V-bottom CAPP 96 deep well plates, the round-bottom version is easy to stack and store in storage. CAPP round-bottom deep well plates are available in two volume configurations i.e., 1.1 mL and 2.2 mL.

V-bottom 96 deep well plates

CAPP 96 deep well plates are also available in a V-bottom format that is developed for more successful sample aggregation processes. The V-bottom CAPP 96 deep well plate format is outstanding for processes like elution (as in nucleic acid isolation) and centrifugation, among others. The typical feature of such processes is the need to separate samples by a concentration step.

The V-bottom design also maximizes sample recovery with a pointed design that perfectly complements the shape of modern pipette tips. CAPP 96 deep well plates with V-shaped bottoms are available in a large 2.2 mL format that can handle most multi-sample life science experiments.

High-quality 96 deep well plates

CAPP Expell 96 deep well plates are created from the best synthetic polymers to offer reliable performance across a wide variety of applications.

Starting with CAPP's best virgin polypropylene, CAPP Expell 96 deep well plates are meticulously engineered to ensure that every dimension is as perfect as physically possible. This reduces the chance of variation between wells, ensuring that samples receive similar treatment conditions for unparalleled reliability.

CAPP Expell deep well plates are also designed to meet all relevant American National Standards Institute (ANSI) standards for easy validation of quality specifications.

Automation-ready deep well plates

CAPP 96 deep well plates are automation-ready right out of the box as they are made for the high-throughput modern laboratory environment. With their robust material construction and raised walls, CAPP deep well plates can be safely used with famous automated liquid handling machines like the Hamilton Microlab® STAR and the Beckman Biomek® range.

Due to their open, universal design, CAPP 96 deep well plates have enhanced cross-platform compatibility compared to older deep well plate designs from other manufacturers. This open design makes it easy to use the same deep well plates for both manual workflows and automated liquid handling protocols. CAPP 96 deep well plates allow users to take liquid handling automation to the next level.

Versatile 96 deep well plates

For recurrent small-volume biological sample runs, CAPP deep well plates are available in a versatile 96-well format that accelerates productivity. Compatible with protocols like centrifugation, nucleic acid extraction, and HPLC prep among others, CAPP 96 deep well plates offer outstanding value for time and money.

Apart from serving as excellent vessels for life science reactions, CAPP 96 deep well plates also excel as storage devices for biological and chemical samples. Crafted from chemically inert and thermostable polypropylene, these plates are highly suited for multiple applications, allowing both short-term and long-term storage of samples at low temperatures.

Chemically stable deep well plates

One quality needed in advanced reaction vessels and sample storage devices is chemical stability. CAPP 96 deep well plates are produced with the use of a chemically stable material that will endure exposure to a broad range of organic chemicals that are frequently employed in life science experimentation and sample storage.

The high-grade polypropylene utilized in CAPP 96 deep well plates is chemically inert, reducing the threat of interactions with reaction components. This choice of design keeps samples safe at the time of experimental runs, preventing any possible leakages and cross-contamination that could occur when elements of the reaction vessel communicate with chemicals in the samples.

Deep well plates with raised rim design

One subtle feature of the new CAPP 96 deep well plates that may be difficult to notice is the raised rim design. Each well of the deep well plates has a slightly raised rim around its opening at the top. This design choice reduces cross-contamination of samples which can be a huge problem when working with large sample numbers.

The product design team spent a lot of time refining this small feature due to the considerable effect that it has on reaction integrity and sample purity. The CAPP 96 deep well plates’ raised rim design is compatible with robotic liquid handling equipment and mechanical pipettes, reducing contamination without decelerating the workflow.

CAPP 96 deep well plates with intuitive sample index

When processing numerous samples in one compact reaction vessel, a sample index is essential. CAPP 96 deep well plates come with an alphanumeric sample index that makes it seamless to locate every sample in just a few seconds.

The intuitive alphanumeric sample uses numbers to define columns (long edge) and letters to define rows (short edge). As a spreadsheet, the sample index on CAPP 96 deep well plates makes swift work of finding every individual sample with pinpoint precision every single time.

This eliminates the need for laborious manual indexing, thereby saving users time and minimizing the risk of errors. Moreover, the sample index featured on CAPP 96 deep well plates is primed for automation, facilitating seamless integration with robotic systems.

CAPP provides free samples of CAPP Expell 96 deep well plates to test how well they integrate into the laboratory’s unique workflow.

Specifications

Source: AHN Biotechnologie GmbH

Cat. No. Description
5100360C Expell deep well plates 1.0 mL, Round well, Round bottom, 4x24 pcs.
5100260C Expell deep well plates 2.0 mL, Round well, Round bottom, 4x12 pcs.
5100261C Expell deep well plates 2.0 mL, Square well, V-bottom, 4x12 pcs.
5100262C Expell deep well plates 2.2 mL, Square well, U-bottom, Zybio®-type, 10x5 pcs.
5100263C Expell deep well plates 2.2 mL, Square well, V-bottom, Kingfisher®-type, 10x5 pcs.
5100270C Expell 96 Kingfisher®-type tip comb, 100x2 pcs.
5100271C Expell 08 U-bottom tip comb, Zybio®-type, 100x2 pcs.

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