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Isotopes of superheavy elements are short-lived and available only at a level of one-atom-at-a-time. Experimental systems used in such studies are therefore preferentially tested with short-lived isotopes of homologous elements of the periodic table that may be partly produced in nuclear fission processes[1]. Short-lived radioisotopes of molybdenum, technetium and ruthenium as homologous elements of Sg, Bh and Hs can be produced from a 252Cf fission source. Metal carbonyl complexes as a class of highly volatile complexes provide a chance to investigate these superheavy elements in the gas-phase.
Isotopes of superheavy elements are short-lived and available only at a level of one-atom-at-a-time. Experimental systems used in such studies are therefore preferentially tested with short-lived isotopes of homologous elements of the periodic table that may be partly produced in nuclear fission processes [1]. Short-lived radioisotopes of molybdenum, technetium and ruthenium as homologous elements of Sg, Bh and Hs can be produced from 252Cf fission sources. Metal carbonyl complexes as a class of highly volatile complexes provide a chance to investigate these superheavy elements in the gas-phase.