First Study on Nihonium (Nh, Element 113) Chemistry at TASCA
(2021) In Frontiers in Chemistry 9.- Abstract
- Nihonium (Nh, element 113) and flerovium (Fl, element 114) are the first superheavy elements in which the 7p shell is occupied. High volatility and inertness were predicted for Fl due to the strong relativistic stabilization of the closed 7p1/2 sub-shell, which originates from a large spin-orbit splitting between the 7p1/2 and 7p3/2 orbitals. One unpaired electron in the outermost 7p1/2 sub-shell in Nh is expected to give rise to a higher chemical reactivity. Theoretical predictions of Nh reactivity are discussed, along with results of the first experimental attempts to study Nh chemistry in the gas phase. The experimental observations verify a higher chemical... (More)
- Nihonium (Nh, element 113) and flerovium (Fl, element 114) are the first superheavy elements in which the 7p shell is occupied. High volatility and inertness were predicted for Fl due to the strong relativistic stabilization of the closed 7p1/2 sub-shell, which originates from a large spin-orbit splitting between the 7p1/2 and 7p3/2 orbitals. One unpaired electron in the outermost 7p1/2 sub-shell in Nh is expected to give rise to a higher chemical reactivity. Theoretical predictions of Nh reactivity are discussed, along with results of the first experimental attempts to study Nh chemistry in the gas phase. The experimental observations verify a higher chemical reactivity of Nh atoms compared to its neighbor Fl and call for the development of advanced setups. First tests of a newly developed detection device miniCOMPACT with highly reactive Fr isotopes assure that effective chemical studies of Nh are within reach. (Less)
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https://lup.lub.lu.se/record/9c2ef511-0e43-4ba5-af62-54b52526cf08
- author
- Yakushev, A.
; Lens, L.
; Düllmann, Ch. E.
; Block, M.
; Brand, H.
; Calverley, T.
; Dasgupta, M.
; Di Nitto, A.
; Götz, M.
; Götz, S.
; Haba, H.
; Harkness-Brennan, L.
; Herzberg, R-D.
; Heßberger, F. P.
; Hinde, D.
; Hübner, A.
; Jäger, E.
; Judson, D.
; Khuyagbaatar, J.
; Kindler, B.
; Komori, Y.
; Konki, J.
; Kratz, J.V.
; Krier, J.
; Kurz, N.
; Laatiaoui, M.
; Lommel, B.
; Lorenz, Christian
LU
; Maiti, M.
; Mistry, A.K.
; Mokry, Ch.
; Nagame, Y.
; Papadakis, P.
; Såmark-Roth, A.
LU
; Rudolph, D.
LU
; Runke, J.
; Sarmiento, L.G.
LU
; Sato, T.K.
; Schädel, M.
; Scharrer, P.
; Schausten, B.
; Steiner, J.
; Thörle-Pospiech, P.
; Toyoshima, A.
; Trautmann, N.
; Uusitalo, J.
; Ward, A.
; Wegrzecki, M.
and Yakusheva, V.
(Less) - organization
- publishing date
- 2021-11-30
- type
- Contribution to journal
- publication status
- published
- subject
- keywords
- superheavy elements, Nihonium, Nh, element 113, production, gas-phase chemistry
- in
- Frontiers in Chemistry
- volume
- 9
- article number
- 753738
- pages
- 9 pages
- publisher
- Frontiers Media S. A.
- external identifiers
-
- scopus:85121336225
- pmid:34917588
- ISSN
- 2296-2646
- DOI
- 10.3389/fchem.2021.753738
- project
- Nuclear Structure at the Limits: Isotope-selective Spectroscopy
- Characterization of New Superheavy Elements
- language
- English
- LU publication?
- yes
- id
- 9c2ef511-0e43-4ba5-af62-54b52526cf08
- date added to LUP
- 2021-11-30 18:13:24
- date last changed
- 2024-09-23 07:46:22
@article{9c2ef511-0e43-4ba5-af62-54b52526cf08,
abstract = {{Nihonium (Nh, element 113) and flerovium (Fl, element 114) are the first superheavy elements in which the <i>7p</i> shell is occupied. High volatility and inertness were predicted for Fl due to the strong relativistic stabilization of the closed <i>7p<sub>1/2</sub></i> sub-shell, which originates from a large spin-orbit splitting between the <i>7p<sub>1/2</sub></i> and <i>7p<sub>3/2</sub></i> orbitals. One unpaired electron in the outermost <i>7p<sub>1/2</sub></i> sub-shell in Nh is expected to give rise to a higher chemical reactivity. Theoretical predictions of Nh reactivity are discussed, along with results of the first experimental attempts to study Nh chemistry in the gas phase. The experimental observations verify a higher chemical reactivity of Nh atoms compared to its neighbor Fl and call for the development of advanced setups. First tests of a newly developed detection device miniCOMPACT with highly reactive Fr isotopes assure that effective chemical studies of Nh are within reach.}},
author = {{Yakushev, A. and Lens, L. and Düllmann, Ch. E. and Block, M. and Brand, H. and Calverley, T. and Dasgupta, M. and Di Nitto, A. and Götz, M. and Götz, S. and Haba, H. and Harkness-Brennan, L. and Herzberg, R-D. and Heßberger, F. P. and Hinde, D. and Hübner, A. and Jäger, E. and Judson, D. and Khuyagbaatar, J. and Kindler, B. and Komori, Y. and Konki, J. and Kratz, J.V. and Krier, J. and Kurz, N. and Laatiaoui, M. and Lommel, B. and Lorenz, Christian and Maiti, M. and Mistry, A.K. and Mokry, Ch. and Nagame, Y. and Papadakis, P. and Såmark-Roth, A. and Rudolph, D. and Runke, J. and Sarmiento, L.G. and Sato, T.K. and Schädel, M. and Scharrer, P. and Schausten, B. and Steiner, J. and Thörle-Pospiech, P. and Toyoshima, A. and Trautmann, N. and Uusitalo, J. and Ward, A. and Wegrzecki, M. and Yakusheva, V.}},
issn = {{2296-2646}},
keywords = {{superheavy elements; Nihonium, Nh, element 113; production; gas-phase chemistry}},
language = {{eng}},
month = {{11}},
publisher = {{Frontiers Media S. A.}},
series = {{Frontiers in Chemistry}},
title = {{First Study on Nihonium (Nh, Element 113) Chemistry at TASCA}},
url = {{http://dx.doi.org/10.3389/fchem.2021.753738}},
doi = {{10.3389/fchem.2021.753738}},
volume = {{9}},
year = {{2021}},
}