scholarly journals A Universal Cassette-Based System for the Dissolution of Solid Targets

Molecules ◽  
2021 ◽  
Vol 26 (20) ◽  
pp. 6255
Author(s):  
Gabriele Sciacca ◽  
Petra Martini ◽  
Sara Cisternino ◽  
Liliana Mou ◽  
Jonathan Amico ◽  
...  
Keyword(s):  
Solid Target ◽  
Syringe Pump ◽  
Target Holder ◽  
Fundamental Step ◽  
System Concept ◽  
Movement Mechanism ◽  
Target Management

Cyclotron-based radionuclides production by using solid targets has become important in the last years due to the growing demand of radiometals, e.g., 68Ga, 89Zr, 43/47Sc, and 52/54Mn. This shifted the focus on solid target management, where the first fundamental step of the radiochemical processing is the target dissolution. Currently, this step is generally performed with commercial or home-made modules separated from the following purification/radiolabelling modules. The aim of this work is the realization of a flexible solid target dissolution system to be easily installed on commercial cassette-based synthesis modules. This would offer a complete target processing and radiopharmaceutical synthesis performable in a single module continuously. The presented solid target dissolution system concept relies on an open-bottomed vial positioned upon a target coin. In particular, the idea is to use the movement mechanism of a syringe pump to position the vial up and down on the target, and to exploit the heater/cooler reactor of the module as a target holder. All the steps can be remotely controlled and are incorporated in the cassette manifold together with the purification and radiolabelling steps. The performance of the device was tested by processing three different irradiated targets under different dissolution conditions.

scholarly journals Enhancement and Validation of a 3D-Printed Solid Target Holder at a Cyclotron Facility in Perth, Australia

Instruments ◽  
2019 ◽  
Vol 3 (1) ◽  
pp. 12 ◽  
Author(s):  
Sun Chan ◽  
David Cryer ◽  
Roger I. Price
Keyword(s):  
Thermal Conductivity ◽  
Cast Alloy ◽  
Cost Effective ◽  
Solid Target ◽  
Cooling Efficiency ◽  
Proof Of Concept ◽  
Proton Bombardment ◽  
Target Holder ◽  
3D Printed ◽  
Target Design

A 3D-printed metal solid target using additive manufacturing process is a cost-effective production solution to complex and intricate target design. The initial proof-of-concept prototype solid target holder was 3D-printed in cast alloy, Al–7Si–0.6Mg (A357). However, given the relatively low thermal conductivity for A357 (max, 160 W/m·K), replication of the solid target holder in sterling silver (SS925) with higher thermal conductivity (max, 361 W/m·K) was investigated. The SS925 target holder enhances the cooling efficiency of the target design, thus achieving higher target current during irradiation. A validation production of 64Cu using the 3D-printed SS925 target holder indicated no loss of enriched 64Ni from proton bombardment above 80 µA, at 11.5 MeV.

scholarly journals Cyclotron produced nuclides for PET imaging and radiotracer studies

2015 ◽  
Author(s):  
◽  
Thomas W. Brossard
Keyword(s):  
Transport Mechanism ◽  
Research Reactor ◽  
Particle Accelerator ◽  
Solid Target ◽  
Wild Type ◽  
Target Holder ◽  
Simultaneous Production ◽  
Carbon 14 ◽  
Maize Plants ◽  
Corn Plants

Sucrose was labeled at three different positions with radioactive fluorine, F-18, and applied to corn plants to study the transport of sugar in maize and to better understand the basic transport mechanism. The transport of sucrose in wild-type and mutant, lacking the primary sucrose transporter, plants were compared to each other and to sucrose labeled with carbon-14. It was found the fluorosucrose analogues compared well with the carbon-14 sucrose and a distinct difference was observed between the wild-type and mutant maize plants. The simultaneous production of copper-64 and zirconium-89 on a medical grade cyclotron, particle accelerator, was also explored. The targetry of the solid target holder of the cyclotron was modified by replacing a Havar window with a yttrium foil. This allowed for the production of zirconium-89 at the yttrium foil while allowing the enriched nickel-64 target to remain in the solid target holder for the production of copper-64. Zirconium-89 was produced, separated, purified and labeled with results similar to previous publications by other authors. The copper-64 production was enhanced by fifty percent when the yttrium foil was replacing the Havar window when compared to a database of over 40 productions at the Missouri University Research Reactor, MURR. The copper-64 was also separated, purified and labeled successfully by researcher at MURR.

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