Target System
A device composed of target holder, target, and control system, used for isotope production via specific nuclear reactions induced by beam irradiation. LBT's target systems comprise three categories: gas target, liquid target, and solid target, with JG-I and JG-II models under the solid target type.
Enables production of medical radioisotopes ¹⁸F and ¹³N at low proton energies. Besides liquid target material, the system includes one liquid target storage vessel and one automated injection system for liquid target material.
Produces gaseous radioisotope ¹¹C. The control system transports target material to the target chamber. After proton bombardment, it transfers produced radioisotopes to the synthesis hot cell for radiopharmaceutical synthesis.
An automated dissolution/transfer device with PLC-integrated control. Consists primarily of solid target device, nuclide dissolution device, peripheral solid target system. Performs storage, irradiation, dissolution, and transfer for three solid targets: 64Ni, 68Zn, 89Y.
IsotopeX Lab JG-II Fully Automated Solid Target System
This enclosed system automates the entire workflow from target irradiation to radioisotope purification. Its high automation level minimizes human error, effectively prevents radioactive contamination, reduces operator radiation exposure, and enhances experimental repeatability and accuracy. A manual operation mode is available to address anomalies during automated processes.
Prepares targets for Cu-64 and Ga-68 production via electrodeposition.
Engineered for solid target irradiation. Features target shuttle positioning and remote control to ensure precision while minimizing radiation risks.
Connects irradiation and dissolution units for rapid shuttle transfer. Pneumatic controls ensure secure high-speed transit through pipelines.
Transfers target shuttles to the irradiation device via rabbit tubes, dissolves irradiated targets, and delivers solutions to the purification unit.
Purifies dissolved nuclide solutions using ion-exchange technology to obtain high-purity target isotopes.
Provides centralized control for irradiation, dissolution processes, and peripheral systems during solid target bombardment.