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Alternative Radionuclide Production with a Cyclotron.
- Format:
- Book
- Author/Creator:
- IAEA.
- Series:
- IAEA Radioisotopes and Radiopharmaceuticals Reports
- IAEA Radioisotopes and Radiopharmaceuticals Reports ; v.4
- Language:
- English
- Subjects (All):
- Cyclotrons.
- Nuclear medicine.
- Radioisotopes.
- Physical Description:
- 1 online resource (92 pages)
- Edition:
- 1st ed.
- Place of Publication:
- Havertown : International Atomic Energy Agency, 2021.
- Summary:
- Cyclotrons are currently used for the preparation of a wide variety of radionuclides that have applications in single photon emission computed tomography (SPECT) and positron emission tomography (PET). Consequently, there is high demand from IAEA Member States for support in the area of radiopharmaceutical production using cyclotron produced radioisotopes. This publication describes the potential radionuclide production routes using cyclotrons in different energy ranges and provides methods for the development of targets and provides details of the chemistry for the separation of radionuclides from target materials. The readership of this publication includes scientists, operators interested in putting this technology into practice, technologists already working with cyclotrons who wish to enhance the utility of existing machines, and managers in the process of setting up radionuclide facilities in their countries. Students working towards higher level degrees in related fields may also benefit from this publication.
- Contents:
- Intro
- 1. INTRODUCTION
- 1.1. Background
- 1.2. Objective
- 1.3. Scope
- 1.4. Structure
- 2. CYCLOTRON PARAMETERS
- 2.1. General considerations
- 2.2. Positive versus negative ion cyclotrons
- 2.3. Cyclotron facilities
- 2.3.1. Facility considerations
- 2.3.2. Nuclear reactions
- 2.4. Cyclotron database
- 3. CYCLOTRON TARGETRY
- 3.1. General considerations
- 3.2. Target types
- 4. CYCLOTRON BASED ALTERNATIVE RADIONUCLIDE PRODUCTION
- 4.1. Overview
- 4.2. Actinium-225
- 4.2.1. Production parameters
- 4.2.2. Targetry and separation chemistry
- 4.3. Antimony
- 4.3.1. Production parameters
- 4.3.2. Targetry and separation chemistry
- 4.4. Arsenic
- 4.4.1. Production parameters
- 4.4.2. Targetry, irradiation parameters and separation chemistry
- 4.5. Astatine-211
- 4.5.1. Production parameters
- 4.5.2. Targetry and separation chemistry
- 4.6. Bismuth-213
- 4.6.1. Production parameters
- 4.6.2. Targetry and separation chemistry
- 4.7. Bromine
- 4.7.1. Production parameters
- 4.7.2. Targetry and separation chemistry
- 4.8. Calcium-47
- 4.8.1. Production parameters
- 4.8.2. Targetry and separation chemistry
- 4.9. Cobalt
- 4.9.1. Production parameters
- 4.9.2. Targetry and separation chemistry
- 4.10. Copper
- 4.10.1. Production parameters
- 4.10.2. Targetry and separation chemistry
- 4.11. Erbium-165
- 4.11.1. Production parameters
- 4.11.2. Targetry, irradiation parameters and separation chemistry
- 4.12. Gallium
- 4.12.1. Production parameters
- 4.12.2. Targetry and separation chemistry
- 4.13. Germanium-68
- 4.13.1. Production parameters
- 4.13.2. Targetry and separation chemistry
- 4.14. Indium
- 4.14.1. Production parameters
- 4.14.2. Targetry and separation chemistry
- 4.15. Iodine
- 4.15.1. Production parameters
- 4.15.2. Targetry and separation chemistry
- 4.16. Iron-52.
- 4.16.1. Production parameters
- 4.16.2. Targetry and separation chemistry
- 4.17. Manganese-52g
- 4.17.1. Production parameters
- 4.17.2. Targetry and separation chemistry
- 4.18. Molybdenum-99
- 4.18.1. Production parameters
- 4.18.2. Targetry and separation chemistry
- 4.19. Niobium-90g
- 4.19.1. Production parameters
- 4.19.2. Targetry and separation chemistry
- 4.20. Paladium-103
- 4.20.1. Production parameters
- 4.20.2. Targetry and separation chemistry
- 4.21. Platinum-191
- 4.21.1. Production parameters
- 4.21.2. Targetry and separation chemistry
- 4.22. Rhenium-186g
- 4.22.1. Production parameters
- 4.22.2. Targetry and separation chemistry
- 4.23. Scandium
- 4.23.1. Production parameters
- 4.23.2. Targetry and separation chemistry
- 4.24. Strontium-82
- 4.24.1. Production parameters
- 4.24.2. Targetry and separation chemistry
- 4.25. Technetium
- 4.25.1. Production parameters
- 4.25.2. Targetry and separation chemistry
- 4.26. Terbium-149
- 4.26.1. Production parameters
- 4.26.2. Targetry, irradiation parameters and separation chemistry
- 4.27. Thallium-201
- 4.27.1. Production parameters
- 4.27.2. Targetry, irradiation parameters and separation chemistry
- 4.28. Tin-117m
- 4.28.1. Production parameters
- 4.28.2. Targetry and separation chemistry
- 4.29. Titanium
- 4.29.1. Production parameters
- 4.29.2. Targetry and separation chemistry
- 4.30. Yttrium-86
- 4.30.1. Production parameters
- 4.30.2. Targetry, irradiation parameters and separation chemistry
- 4.31. Zinc
- 4.31.1. Production parameters
- 4.31.2. Targetry and separation chemistry
- 4.32. Zirconium-89g
- 4.32.1. Production parameters
- 4.32.2. Targetry and separation chemistry
- 5. CONCLUSION
- REFERENCES
- ABBREVIATIONS
- CONTRIBUTORS TO DRAFTING AND REVIEW.
- Notes:
- Description based on publisher supplied metadata and other sources.
- Other Format:
- Print version: IAEA Alternative Radionuclide Production with a Cyclotron
- ISBN:
- 9789201032218
- OCLC:
- 1340957567
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