Sterile self-standing cryogenic vials are essential laboratory consumables designed for the storage and preservation of biological samples at extremely low temperatures. These vials are commonly utilized across various scientific disciplines, including molecular biology, biochemistry, and clinical analysis. Their self-standing design ensures stability and ease of storage in cryogenic boxes and freezers.
The versatility of sterile cryogenic vials is evident in their range of volumes and cap styles, catering to different sample sizes and laboratory requirements. These vials are indispensable in cryopreservation techniques where cellular viability over extended periods is crucial, such as in the case of preserving cell lines, tissue samples, and nucleic acids.
Constructed from durable materials like polypropylene, these self-standing vials are designed to withstand the rigors of ultra-low temperature storage, often down to -196°C. The sterility of these vials is paramount, ensuring that samples remain uncontaminated during storage and handling. The vials' external threads and secure sealing mechanisms prevent leaks and facilitate easy opening and closing.
The use of sterile self-standing vials in laboratories presents numerous advantages. Their self-standing base allows for efficient use of storage space, while the clear material and writing areas enable easy sample identification. The sterility of these vials is a critical feature, minimizing the risk of sample contamination and ensuring the integrity of the stored material.
When selecting cryogenic storage vials, it is important to consider factors such as the vial's volume capacity, the type of cap, and the material's compatibility with the intended storage conditions. Additionally, the vial's design should facilitate easy handling and automation compatibility for high-throughput laboratory environments.
Adherence to environmental and safety standards is crucial when manufacturing lab cryogenic vials. These products are typically produced in compliance with international standards to ensure they are safe for use in critical laboratory applications and do not contribute to unnecessary environmental waste.