Most of RFID tags can not be stored and read under ultra-low temperature and deep low temperature environment. The management of biological samples also mostly relies on manual or two-dimensional code, and manual management is prone to errors, and two-dimensional code inventory needs to be scanned each by each, which is also very troublesome. For this reason, RTEC, one of the leading RFID tag companies has developed low temperature RFID tags that can be stored in liquid nitrogen and can be read at -196°C. This RFID cryopreservation tag can be read immediately after removal from liquid nitrogen. This RFID Low temperature tag is very small, which can be embedded in the bottom of the frozen storage tube.
Sepcifications
Tag Materials |
FR4 |
Surface Materials |
Industry grade epoxy resin |
Dimensions |
φ4.7*1.4 mm |
Installation |
Embedded |
Ambient Temperature |
-196°C to +150°C |
IP Classfication |
IP68 |
RF Air Protocol |
EPC Global Class 1 Gen2 ISO18000-6C |
Operating Frequency |
UHF 866-868 MHz (ETSI) / UHF 902-928 MHz (FCC) |
Environment Compatibility |
Optimized on air |
Read Range on metal |
Up to 5cm |
IC Type |
Impinj R6-P |
Memory Configuration |
EPC 128bit TID 96bit User 32bit |
Product Description
RFID technology has various applications in biological sample management, particularly in laboratory and healthcare settings.As RFID tag manufacturer, the E-S4.7 developed by RETC can not only withstand the temperature of deep and low temperature of liquid nitrogen, but also has a small size, which can be directly embedded in the bottom of the frozen storage tube, giving each frozen storage tube an ID. Here are some key benefits and use cases for RFID in biological sample management:
Sample Tracking: RFID Low temperature tag can be attached to sample containers to enable real-time tracking and identification of samples throughout the entire sample lifecycle, from collection to storage to analysis. This helps prevent misplacement, loss, or misidentification of samples, thereby improving accuracy and efficiency in sample management.
Inventory Management: low temperature RFID enables automated and accurate inventory management of biological samples, allowing for easy identification and monitoring of sample quantities, expiration dates, and storage conditions.
Quality Control: RFID tags for liquid nitrogen can be used to monitor environmental conditions such as temperature and humidity within storage facilities, ensuring that biological samples are maintained under optimal conditions to preserve sample integrity.
Chain of Custody: RFID cryopreservation tag can provide a secure and auditable chain of custody for biological samples, tracking who has accessed the samples and when, thereby enhancing sample security and compliance with regulatory requirements.
Laboratory Automation: RFID cryopreservation tag-enabled workflows can streamline sample processing and laboratory automation, reducing manual handling and human errors while improving sample throughput and overall operational efficiency.
Sample Authentication: RFID tag for low temperature can serve as a means of sample authentication, ensuring the integrity and authenticity of biological samples by verifying their origin and handling history.
Integration with Laboratory Information Management Systems (LIMS): RFID technology can be integrated with LIMS to provide seamless and automated data capture, sample tracking, and information exchange, facilitating more efficient sample management and reporting.
Compliance and Regulations: RFID-enabled sample management systems can help laboratories and healthcare facilities to comply with regulatory requirements by providing accurate and auditable records of sample handling and storage.
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By RTECTO KNOW MORE ABOUT RTEC RFID, PLEASE CONTACT US!
- liuchang@rfrid.com
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