On the volatility of nihonium (Nh, Z = 113)

Authors :: I. V. Shirokovsky
Maksim V. Shumeiko
Grigory K. Vostokin
Y. A. Popov
F. S. Abdullin
Yury Tsyganov
R. N. Sagaidak
A. V. Sabelnikov
A. A. Voinov
Robert Eichler
Sergey N. Dmitriev
Patrick Steinegger
O. V. Petrushkin
Vyacheslav Ya. Lebedev
Viktor I. Chepigin
Yury V. Albin
A. N. Polyakov
G. A. Bozhikov
Alexander Sh. Madumarov
A. V. Yeremin
V. K. Utyonkov
O. N. Malyshev
Gennadii Ya. Starodub
N. V. Aksenov
Source :: The European Physical Journal A. 53
Publication Year :: 2017
Publisher :: Springer Science and Business Media LLC, 2017.
Abstract: Gas-phase chromatography studies of nihonium (Nh, $Z=113$ ) were carried out at the one-atom-at-a-time level. For the production of nihonium, the heavy-ion-induced nuclear fusion reaction of 48Ca with 243Am was used. This leads to isotopes 284,285Nh, as the direct descendants of the $\alpha$ -decaying precursors 288,289Mc. Combining the Dubna Gas-Filled Recoil Separator with gas-phase chromatographic separation, the experiment was sensitive to elemental nihonium and its adsorption behavior on Teflon, theoretically predicted by modern relativistic density functional theory. The non-observation of any decays of Nh after the chemical separation indicates a larger than expected retention of elemental Nh on a Teflon surface.