Inorganic resins enable the increased purification efficiency of .sup.82Sr from rubidium targets for use in PET imaging isotope production

Inorganic resins enable the increased purification efficiency of .sup.82Sr from rubidium targets for use in PET imaging isotope production

Highlights * Focus is on the separation of Sr from Rb, Se and other metallic impurities such as Fe, Cr, and Ni cladding materials. * SNT and CST considered as an alternative to Chelex-100 for purification of .sup.82Sr from bulk RbCl. * CST is suitable as a material in a cleanup column for removal of...

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Veröffentlicht in:Journal of radioanalytical and nuclear chemistry 2022-10, Vol.331 (10), p.4087
Hauptverfasser: Younes, Ali, Fitzsimmons, Jonathan, Ali, Jafar S, Groveman, Sam, Cutler, Cathy S, Medvedev, Dmitri
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PET imaging
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container_issue 10
container_start_page 4087
container_title Journal of radioanalytical and nuclear chemistry
container_volume 331
creator Younes, Ali
Fitzsimmons, Jonathan
Ali, Jafar S
Groveman, Sam
Cutler, Cathy S
Medvedev, Dmitri
description Highlights * Focus is on the separation of Sr from Rb, Se and other metallic impurities such as Fe, Cr, and Ni cladding materials. * SNT and CST considered as an alternative to Chelex-100 for purification of .sup.82Sr from bulk RbCl. * CST is suitable as a material in a cleanup column for removal of Se and Rb with capacity for Rb = 0.88 meq/g. * Uptake of Sr and Rb by SNT and Chelex-100 follows pseudo-second order kinetics.
doi_str_mv 10.1007/s10967-022-08498-5
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title Inorganic resins enable the increased purification efficiency of .sup.82Sr from rubidium targets for use in PET imaging isotope production
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