The use of High Specific Activity Radionuclides HSARNs, obtained by either proton, deuteron or alpha cyclotron irradiation, followed by selective radiochemical separation from the irradiated target in No Carrier Added (NCA) form, is a powerful analytical tool for plenty applications in pure and applied sciences and technologies. The main applications of these RNs are in medical radiodiagnostics and metabolic radiotherapy in addition to toxicological, environmental and industrial studies
High specific activity radionuclides Re-186g and Lu-177g produced by cyclotron / F. Groppi, M.L. Bonardi, S. Manenti, L. Gini - In: Fourth international symposium on nuclear analytical chemistry (NAC-IV) / [a cura di] R. Acharya, A.V.R. Reddy, A. Chatt, V. Venugopal. - Mumbai (India) : Department of atomic energy, 2010 Nov. - pp. 98-101 (( Intervento presentato al 4. convegno Nuclear analytical chemistry tenutosi a Mumbai (India) nel 2010.
High specific activity radionuclides Re-186g and Lu-177g produced by cyclotron
F. Groppi;M.L. Bonardi;S. Manenti;
2010
Abstract
The use of High Specific Activity Radionuclides HSARNs, obtained by either proton, deuteron or alpha cyclotron irradiation, followed by selective radiochemical separation from the irradiated target in No Carrier Added (NCA) form, is a powerful analytical tool for plenty applications in pure and applied sciences and technologies. The main applications of these RNs are in medical radiodiagnostics and metabolic radiotherapy in addition to toxicological, environmental and industrial studies
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