113
Nh
Nihonium
Atomic Mass 286
Electron Configuration [Rn] 5f14 6d10 7s2 7p1(predicted)
Oxidation States Expected to be a Solid
Year Discovered 2004

Identifiers

Element Name Nihonium
Element Symbol Nh
InChI InChI=1S/Nh
InChIKey KUGNSLWRKGRKGS-UHFFFAOYSA-N

Properties

Atomic Weight

286

286

Relative Mass: 284.17873(62#)

Electron Configuration

[Rn] 5f14 6d10 7s2 7p1(predicted)

Atomic Radius

Empirical Atomic Radius : empirical: 170 pm (predicted)

Physical Description

Expected to be a Solid

Element Classification

Metal

Element Period Number

7

Element Group Number

13

Melting Point

700K​(430°C,​810°F)(predicted)

Boiling Point

1430K​(1130°C,​2070°F)(predicted)

Estimated Crustal Abundance

Not Applicable

Estimated Oceanic Abundance

Not Applicable

History

On July 23, 2004, scientists working at the RIKEN Nishina Center for Accelerator-based Science in Wako, Japan, created the first two atoms of the element nihonium by accelerating zinc ions to 10 percent the speed of light and then impacting them onto a thin bismuth target. Both atoms quickly underwent a series of four alpha decays, forming dubnium-262, which then decayed by spontaneous fission. Nihonium's most stable isotope, nihonium-286, has a half-life of about 20 seconds. It decays into roentgenium-282 through alpha decay.

On November 28th, 2016 element 113 was named “nihonium” with the symbol Nh. The name was proposed by the discoverers at RIKEN Nishina Center for Accelerator-Based Science in Japan. The name means mean “the Land of Rising Sun” and comes from the word “Nihon,” which means “Japan” in Japanese.

Description

Nihonium does not occur naturally in the Earth’s crust. The name nihonium and the symbol Nh are the accepted ones for element 113. Nihon is one of the two ways to say “Japan” in Japanese and means “the land of the Rising Sun.” It is the first element to have been discovered in an Asian country [665], [666], [667].

The synthesis of nihonium was first announced in 2004. The Joint Institute for Nuclear Research (JINR) and the Lawrence Livermore National Laboratory were able to produce two super-heavy elements by bombarding a rotating 243Am disc with an ion beam of 48Ca in a U-400 cyclotron. During the reaction, isotopes of moscovium, previously known as ununpentium, were synthesized and decayed in a tenth of a second to nihonium, which then decayed to roentgenium. Because the atoms of moscovium only existed for a tenth of a second, radiochemical proof was needed to support its syntheses. A Swiss scientist at the Paul Scherrer Institute (PSI) performed the radiochemical experiment by analyzing a copper plate that had been placed behind the 243Am disc in the cyclotron. This copper plate collected all moscovium atoms that were synthesized and was processed through liquid chromatography techniques that yielded five times more moscovium atoms than produced by fusion alone. The direct synthesis of nihonium was announced later that year by a team of Japanese scientists from the Cyclotron Center of the RIKEN Research Institute. These scientists bombarded atoms of 209Bi with a beam of 70Zn in a RIKEN heavy-ion linear accelerator (RILAC), shown in Fig. IUPAC.113.1, and gas-filled recoil ion separator (GARIS), shown in Fig. IUPAC.113.2. Nihonium has no known isotopic applications aside from scientific research.

Fig. IUPAC.113.1: RILAC (RIKEN linear accelerator) used to synthesize nihonium (kindly provided by RIKEN).

Fig. IUPAC.113.2: GARIS (Gas filled recoil ion separator) used to synthesize nihonium (kindly provided by RIKEN).

[665] Los Alamos National Laboratory. Periodic Table of Elements: LANL-Nihonium, Los Alamos National Laboratory (2017), April 8; http://periodic.lanl.gov/113.shtml.
[666] Y. T. Oganessian, V. K. Utyonkov, Y. V. Lobanov, F. S. Abdullin, A. N. Polyakov, R. N. Sagaidak, I. V. Shirokovsky, Y. S. Tsyganov, A. A. Voinov, G. G. Gulbekian, S. L. Bogomolov, B. N. Gikal, A. N. Mezentsev, V. G. Subbotin, A. M. Sukhov, K. Subotic, V. I. Zagrebaev, G. K. Vostokin, M. G. Itkis, R. A. Henderson, J. M. Kenneally, J. H. Landrum, K. J. Moody, D. A. Shaughnessy, M. A. Stoyer, N. J. Stoyer, P. A. Wilk. Phys. Rev. C76, 011601-1 (2007).
[667] Y. Yano, M. Kase, K. Morita. “Discovering element 113”, in RIKEN News.

Users

Since only a few atoms of nihonium have ever been produced, it currently has no uses outside of basic scientific research.

Compounds

See more information at the Nihonium compound page.

Isotopes

Stable Isotope Count 0

Atomic Mass, Half Life, and Decay

Nuclide Atomic Mass and Uncertainty [u] Half Life and Uncertainty Discovery Year Decay Modes, Intensities and Uncertainties [%]
278Nh 278.170725 ± 0.00024 [Estimated] 2.3 ms ± 1.3 2004 α≈100%
279Nh 279.171187 ± 0.000644 [Estimated] 1 ms [Estimated] α ?; SF ?
280Nh 280.173098 ± 0.000429 [Estimated] 10 ms [Estimated] α ?; SF ?
281Nh 281.173710 ± 0.000322 [Estimated] 100 ms [Estimated] α ?; SF ?
282Nh 282.175770 ± 0.00043 [Estimated] 140 ms ± 90 2007 α=100%
283Nh 283.176666 ± 0.000469 [Estimated] 140 ms ± 90 2004 α=100%
284Nh 284.178843 ± 0.000573 [Estimated] 0.97 s ± 0.11 2004 α=100%
285Nh 285.180106 ± 0.000832 [Estimated] 4.6 s ± 1.1 2010 α=100%
286Nh 286.182456 ± 0.000634 [Estimated] 12 s ± 5 2010 α=100%
287Nh 287.184064 ± 0.000759 [Estimated] 20 s [Estimated] α ?; SF ?
288Nh 288.186764 ± 0.000751 [Estimated] 20 s [Estimated] α ?; SF ?
289Nh 289.188461 ± 0.000537 [Estimated] 30 s [Estimated] α ?; SF ?
290Nh 290.191429 ± 0.000503 [Estimated] 8 s ± 6 2016 α≈100%; SF<50%

Information Sources

  1. 1.  PubChem
  2. 2.  Atomic Mass Data Center (AMDC), International Atomic Energy Agency (IAEA)
  3. 3.  IUPAC Commission on Isotopic Abundances and Atomic Weights (CIAAW)
  4. 4.  IUPAC Periodic Table of the Elements and Isotopes (IPTEI)
    LICENSE
    Copyright (c) 2020 International Union of Pure and Applied Chemistry. The International Union of Pure and Applied Chemistry (IUPAC) contribution within Pubchem is provided under a CC-BY-NC-ND 4.0 license, unless otherwise stated.
    https://creativecommons.org/licenses/by-nc-nd/4.0/
  5. 5.  Jefferson Lab, U.S. Department of Energy
    LICENSE
    Please see citation and linking information https https://www.jlab.org/privacy-and-security-notice
  6. 6.  Los Alamos National Laboratory, U.S. Department of Energy
  7. 7.  NIST Physical Measurement Laboratory
  8. 8.  PubChem Elements
    Nihonium

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