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• W904031429 abstract "Since lead is expected to be a homologue of element 114, study on the sorption of its trace quantity can give some useful information on the behaviour of element 114 under the same conditions [5]. The predicted ground state electron configuration of the atoms of element 114 is similar to that of lead [19]. The theory [20, 22] predicts the so-called ‘stability island’, for superheavy elements where half-lives of their isotopes might be as long as several minutes and more. Until now, the isotopes of element 114 with the atomic masses of 287, 288, 289 and half-lives of 6, 2.8 and 30.4 s, respectively, have been synthesized [16] what indicates that the solution chemistry investigation of element 114 is feasible [23]. The method of continuous ‘on-line’ isolation of short-lived transactinide elements together with simultaneous chemical studies of these elements in the solutions containing diverse complexing agents was developed in Joint Institute for Nuclear Research (JINR), Dubna [24]. The procedure involves isolation and separation of target products on a series of ion-exchange columns. Since the production cross-section of element 114 is low and the half-lives of its isotopes are short, the choice of correct sorbents is of particular importance for this issue. The 212Pb isotope emits γ-rays, that gives the possibility of promising monitoring of its sorption on various sorbents [25]. The Sorption of lead(II) on copper(II) and nickel-potassium hexacyanoferrates and magnetite-loaded resin from inorganic acid solutions Barbara Kubica" @default.
• W904031429 created "2016-06-24" @default.
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• W904031429 date "2010-01-01" @default.
• W904031429 modified "2023-09-24" @default.
• W904031429 title "Sorption of lead(II) on copper(II) and nickel-potassium hexacyanoferrates and magnetite-loaded resin from inorganic acid solutions" @default.
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