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Low energy cyclotron production and chemical separation of "no carrier added" iodine-124 from a reusable, enriched tellurium-124 dioxide/aluminum oxide solid solution target
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Y. Sheh
Published/Copyright:
September 25, 2009
Iodine-124 is a radionuclide with a 4.18 day half-life which decays by positron emission(23.3%) and electron capture (76.7%). Details on the preparation of this radionuclide via the 124Te(p,n)124I nuclear reaction are described. A reusable target uniquely suited for low energy cyclotron irradiations has been described along with specific characteristics for the dry distillation recovery of the 124I species.
Published Online: 2009-9-25
Published in Print: 2000-3-1
© 2015 Oldenbourg Wissenschaftsverlag GmbH, Rosenheimer Str. 145, 81671 München
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Articles in the same Issue
- Preface: Alfred P. Wolf Memorial Issue
- Im Memoriam Alfred P. Wolf
- The centenary of a controversial discovery: actinium
- Proton-induced nuclear reactions in neptunium-237 targets. Production of plutonium tracers in the energy range 15-40 MeV
- Possibility of production of 81Rb via the 80Kr(d,n) reaction at a small cyclotron
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- Production of high specific activity 27Mg by fast neutron irradiation and recoil-aided leaching
- Production of strontium-82 for the Cardiogen® PET generator: a project of the Department of Energy Virtual Isotope Center
- Lutetium-177-EDTMP for bone pain palliation. Preparation, biodistribution and pre-clinical studies
- Thermochromatographic separation of no-carrier-added 186Re or 188Re from tungsten targets relevant to nuclear medical applications
- Low energy cyclotron production and chemical separation of "no carrier added" iodine-124 from a reusable, enriched tellurium-124 dioxide/aluminum oxide solid solution target
- Physicochemical and radiochemical aspects of separation of radioiodine from TeO2-targets
- Novel separation of thallium-201 using p-tert-butylcalix[4]arene derivative
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- Doppler broadening as a probe of the chemical environment following oxygen-14 decay
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- Effect of dissolved gas on the specific activity of N-13 labeled ions generated in water by the 16O(p,α)13N reaction
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