In the precision stage of biological science research, every detail is related to the success or failure of the experiment and the progress of science. When we talk about the storage of biological samples, an important factor that cannot be ignored is the sterile environment. Today, let us focus on the 3.6ml plastic round bottom self-standing cryogenic vial cryotube and explore how it provides a pure and safe storage space for biological samples through strict gamma sterilization.

First, let's review the basic characteristics of this cryotube. The 3.6ml plastic round bottom self-standing cryogenic vial cryotube, with its excellent low-temperature resistance, can withstand extreme low temperatures as low as minus 196 degrees Celsius in liquid nitrogen gas phase, providing a long-term and stable storage environment for biological samples. However, it is far from enough to resist low-temperature invasion. In order to ensure the purity and activity of the sample during storage, the cryotube has also undergone a more rigorous test-gamma sterilization.

Gamma sterilization, as an efficient and reliable sterilization method, is widely used in the disinfection process of medical devices and biological sample containers. It directly destroys the DNA structure of microorganisms through the high-energy penetration of gamma rays, thereby achieving a thorough sterilization effect. This step is crucial for the 3.6ml plastic round-bottom self-standing cryogenic vial cryotube. It not only ensures the sterility of the inside of the cryotube, that is, no DNase, no RNase, and no pyrogen, but also eliminates any potential risk of microbial contamination.

After gamma sterilization, the 3.6ml plastic round-bottom self-standing cryogenic vial cryotube becomes a true sterile fortress. During the storage of samples, they will be away from any possible exogenous contamination and maintain the most original purity and activity. This is of inestimable value in ensuring the accuracy and reliability of the experiment. After all, in biological science research, any tiny contamination may become an interference factor, affect the accuracy of experimental results, and even mislead the scientific direction.

Therefore, the 3.6ml plastic round-bottom self-standing cryogenic vial cryotube has become an indispensable and important tool in biological science research with its strict disinfection and sterilization treatment and excellent low-temperature resistance. Whether it is stem cell research, microbial culture, or long-term storage of cell lines, this cryotube can provide reliable support. It allows researchers to focus more on the experiment itself without worrying about the purity and activity of the sample.

The 3.6ml plastic round bottom self-standing cryogenic vial cryotube provides a pure and safe environment for the storage of biological samples with its unique disinfection and sterilization treatment and excellent performance. It is a solid backing for scientific research and a shining pearl on the road of progress in biological science. Let us look forward to this cryotube continuing to play its important role in the future and contributing more to the development of biological science.