Deep well plates are a type of laboratory equipment used in cell culture, biochemical analysis, and other scientific applications. They are designed to hold multiple samples in separate wells, allowing researchers to conduct experiments on a larger scale than traditional petri dishes or test tubes.
Deep well plates come in a variety of sizes and shapes, ranging from 6 to 96 wells. The most common are 96-well plates, which are rectangular in shape and accommodate individual sample wells in 8 rows by 12 columns. The volumetric capacity of each well varies according to its size, but is typically between 0.1 mL – 2 mL per well. Deep well plates also come with lids that help protect samples from contamination during storage or transport and provide an airtight seal when placed in an incubator or shaker during experiments.
Deep well plates have many uses in the life science industry; they are commonly used in cell culture, such as bacterial growth studies, cloning experiments, DNA extraction/amplification techniques such as PCR (polymerase chain reaction) and ELISA (enzyme-linked immunosorbent assay) . In addition, deep well plates can be used for enzyme kinetic studies, antibody screening tests, and drug discovery research projects, among others.
96-well deep-well plates offer a significant advantage over other formats as they increase the surface area to volume ratio – compared to smaller formats such as 24- or 48-well plates, this allows more cells or molecules to be processed at one time while still Maintain sufficient resolution levels separately for the disks. Additionally, these types of plates enable scientists to rapidly automate processes using robotic systems, significantly increasing throughput capabilities without compromising accuracy levels; something not possible using traditional methods such as manual pipetting.
In summary, it is clear why 96-deep-well plates are so widely used in many different areas of scientific research; due to their large format size, they allow researchers greater flexibility in performing experiments while providing efficient processing time, making it ideal for modern laboratories around the world!
Post time: Feb-23-2023