Prep Probe
Introducing the Prep Probe in combination with the GABI Nova-a groundbreaking solution for semi- and preparative HPLC applications in radiopharmaceutical synthesis. This innovative system addresses the challenges of radio-detection, ensuring high sensitivity and performance in demanding environments.
Key Features
• Enhanced Detection Capabilities: Designed for high activity levels, the Prep Probe provides reliable detection in environments where traditional detectors struggle due to extreme count rates and radiation exposure.
• Compact Design: The probe’s small size (comparable to an AA battery) allows for minimal shielding requirements, typically just 10 cm in diameter and 14 cm in height with a lead cover, making it ideal for use in hot cells where space is limited.
• Customizable HPLC Loops: Standard loop sizes of 2, 7, and 16 μl are available, with the option to create custom loops up to 1 ml, optimizing peak detectability and shape. The loop’s internal and outer diameters are adjustable to accommodate HPLC flow rates from 1 to 250 ml/min.
• Automated Peak Collection: An optional downstream 6-position valve can be controlled via software or manually, allowing for the collection of peaks of interest based on chromatogram data or defined signal thresholds.
• Flexible Installation: The probes can be used in a hot cell, combined with an HPLC system, or integrated into a synthesis unit, providing versatile options for radiopharmaceutical applications.
• Advanced Communication Protocol: The GABI Nova introduces the Elysia Communication Protocol (ECP), which enables seamless recognition of different probes and detectors, enhancing documentation and GxP compliance.
• Remote Diagnostics and Control: The ECP allows for advanced control and diagnostics of probes, ensuring optimal performance and the ability to perform remote diagnostics.
With the Prep Probe and GABI Nova, you can achieve unparalleled performance and reliability in semi- and preparative HPLC applications, ensuring the highest standards in radiopharmaceutical synthesis.
