In recent years, biological sample authentication technology has played an important role in promoting scientific innovation, facilitating precision medicine, and ensuring public health. With the increasing attention of governments around the world to the development of biological sample banks, a series of encouraging and guiding policies have been introduced, creating a favorable environment for the healthy development of biological sample banks.
As a new type of biological sample storage technology, the intelligent deep low-temperature biological sample library has the ability to operate automatically and unmanned in a storage environment of minus 196 ℃, and is equipped with intelligent fault diagnosis and remote operation and maintenance functions. This technology not only ensures the activity and stability of biological samples, with a storage time of up to a hundred years, but also greatly improves the efficiency of sample access and management.
The intelligent deep low-temperature biological sample library automatically completes the operations of biological sample storage, storage, positioning, and retrieval through equipment such as robotic arms, automated conveyors, and intelligent scanning systems. At the same time, the intelligent management system can record and track key information such as the access history, storage location, and temperature record of each sample, ensuring the accuracy and traceability of sample information.
In addition, the intelligent deep low-temperature biological sample library also has remote monitoring function, which can monitor the temperature, humidity and other environmental parameters inside the sample library in real time, and automatically issue an alarm when the environmental parameters exceed the set range, reminding management personnel to take measures. This feature not only improves the operational efficiency of the sample library, but also ensures the safety and stability of the samples.
With the continuous advancement of biological sample authentication technology, its application in scientific research and clinical fields will become more extensive, providing strong support for promoting scientific innovation and the development of precision medicine.