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In the process of life science research and biological sample library construction, the long-term safe storage of biological samples is a key link to maintain the accuracy of experimental data and the biological activity of samples. 3.6ml plastic round bottom self-standing cryogenic vial cryotube provides a stable and reliable storage carrier for various biological samples with its excellent performance.
High-quality materials ensure sample safety
3.6ml plastic round bottom self-standing cryogenic vial cryotube is made of high-quality and durable plastic material, which has excellent physical stability and impact resistance. In harsh storage environments, it can effectively resist the impact of external force shock and temperature changes, greatly reduce the risk of cracking and damage of cryogenic tubes, and build a solid line of defense for sample integrity. Whether it is frequent freeze-thaw cycles or long-term low-temperature environments, cryogenic tubes can always maintain structural integrity, avoid sample leakage and cross-contamination, and ensure the reliability of scientific research data and the validity of experimental results.
Outstanding extreme low temperature tolerance
The 3.6ml plastic round bottom self-standing cryogenic vial cryotube is designed for extreme low temperature environments, can withstand ultra-low temperature tests, and is perfectly adapted to the needs of medium- and long-term storage in liquid nitrogen. During the cryopreservation process, extremely low temperatures will cause the sample to enter a dormant state, preserving the activity and structure of biological molecules to the maximum extent. The cryopreservation tube, with its excellent low temperature resistance, can stably exist in a liquid nitrogen environment, prevent the material from becoming brittle and deformed due to low temperatures, ensure the safety and stability of the sample during cryopreservation, and provide ideal conditions for the long-term storage of biological samples.
Unique design improves operational convenience
The round bottom self-standing design gives it good stability and self-stability. When placed on a laboratory bench or storage device, it can remain upright, effectively avoiding sample confusion and contamination risks caused by tipping. This design makes the cryopreservation tube more convenient during sample storage, transfer, and other operations. Researchers can easily pick up and place it without the help of additional support tools, significantly improving experimental efficiency. With a firm threaded cap, the tight sealing structure further ensures the safety of samples, effectively isolates external air, moisture and microorganisms, prevents oxidation, degradation and contamination of samples, and ensures that the quality of samples is not affected.
Reasonable capacity adapts to various samples
The 3.6 ml capacity specification can fully meet the storage needs of various organic samples such as cells, tissues, DNA, RNA, proteins, etc. Whether it is a small amount of precious clinical samples or a large-scale scientific research sample, the cryopreservation tube can provide sufficient storage space, reduce the number of sample subpackaging, and reduce the risk of sample loss and contamination. The transparent tube design makes it easy for researchers to observe the state of the contents intuitively. Without frequently opening the cryopreservation tube, they can grasp the sample storage situation in real time, and improve the convenience and flexibility of experimental operation while ensuring the safety of the sample.
Practical functions optimize the experimental process
The eye-catching starting mark on the surface of the cryopreservation tube brings great convenience to the sample quantity recording and file management. Researchers can quickly and accurately mark sample information, realize orderly management and efficient traceability of samples, and avoid sample confusion and loss due to confusion in information records. The cryotube is compatible with most commonly used laboratory racks and storage systems, and can be seamlessly integrated into the existing laboratory workflow. It can achieve standardized storage of samples without large-scale transformation of experimental equipment and storage systems, effectively improving the overall work efficiency of the laboratory and optimizing the allocation of scientific research resources.
