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Deep-well Plates (V) Wholesale

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Nucleic Acid Extraction

Deep-well Plates (V)

Deep-well Plates are designed for high-throughput applications such as sample storage, compound screening, and protein crystallization. These plates feature a square well design that allows for maximum sample recovery and compatibility with most automated liquid handling systems.

 Features and Benefits:

  • Square well design: The square well design of these plates allows for maximum sample recovery and makes them compatible with most automated liquid handling systems available in the market.
  • Compatible with most automated liquid handling systems: These plates are designed to fit most automated liquid handling systems available in the market, ensuring compatibility with your existing equipment.
  • Clear well identification: The clear well identification on the plates makes it easy to identify the wells, reducing the risk of errors.
  • DNase/RNase-free and non-pyrogenic: These plates are free from DNase, RNase, and pyrogens, making them suitable for use in molecular biology applications.
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Zhejiang ZSup Medical Technology Co., Ltd.

Zhejiang ZSup Medical Technology Co., Ltd was established in 2018, Is a Deep-well Plates (V) Manufacturers and Deep-well Plates (V) Suppliers, by expert Teams of mold manufacturing, polymer materials, biomedicine, and IOT. We produce high-quality laboratory consumables in GMP qualified 100,000-level cleanliness level purification workshop. We also undertake manufacture of high-precision injection mold, customized bio supplies. We strive to provide one-stop solutions to our customers.
Manufacture of high-precision mold: Technical team own excellent experiences in producing of high-precision molds for bio supplies, particularly for thin-walled, multi-cavity, high-speed injection molds.
Manufacture of injection molding products: Top level production of laboratory supplies by world class QC and QA management, including
· General consumables: centrifuge tubes, tips, PCR, cell culture products, etc.;
· Customized consumables: all kinds of automated special biological experiment consumables;
· OEM customization: sharing equipment, molds, production lines, and available for OEM manufacture.
We offer a great balance of quality and affordability, while maintaining high-quality standards by leveraging economies of scale, optimizing production processes, and sourcing materials.

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Industry Knowledge Extension

What specific impact does the hole type selection of Deep-well Plates (V) have on the experimental results?

The choice of hole type of Deep-well Plates (V) has a significant specific impact on the experimental results. Here are some major considerations:
1. Sample volume and ease of operation:
Deep-well Plates (V) with different hole types can accommodate different volumes of samples. For example, round wells tend to be suitable for smaller sample volumes, while square or rectangular wells may be suitable for larger sample volumes. The choice of hole shape directly affects the convenience of experimental operation, especially when using automated equipment for liquid handling. Proper well pattern helps ensure accurate sample transfer and avoids waste or cross-contamination.
2. Sample distribution and uniformity:
Different hole types will also affect the distribution and uniformity of the sample within the hole. Certain well types may be more likely to cause sample to accumulate at edges or corners, affecting the consistency and reliability of experimental results. Therefore, when selecting a hole type, the physical characteristics of the sample and the experimental requirements need to be considered to ensure uniform distribution of the sample within the hole.
3. Optical detection and imaging effects:
For experiments requiring optical detection or imaging, the choice of well type is particularly important. Certain hole patterns may be more suitable for reading with optical detectors because they provide better light paths or imaging. For example, a flat-bottom hole can reduce the scattering of light and make the image clearer; while a U-shaped bottom or V-shaped bottom may help concentrate light and improve detection sensitivity.
4. Heat conduction and temperature control:
In experiments that require precise temperature control, such as PCR or enzymatic reactions, the choice of well type will also affect heat transfer efficiency. The bottom shape and material of different hole types may affect the distribution and transfer speed of heat, thus affecting the accuracy and stability of experimental results.
In summary, the choice of hole type of Deep-well Plates (V) has many impacts on the experimental results. When selecting a hole type, it is necessary to comprehensively consider the specific needs of the experiment, the characteristics of the sample, and the instruments and equipment used to ensure the accuracy and reliability of the experimental results.