115
Mc
Moscovium
Atomic Mass 289
Electron Configuration [Rn] 7s2 7p3 5f14 6d10(predicted)
Oxidation States 1, 3 ​(prediction)
Year Discovered 2003

Identifiers

Element Name Moscovium
Element Symbol Mc
InChI InChI=1S/Mc
InChIKey QDXZEHQJHSHEQF-UHFFFAOYSA-N

Properties

Atomic Weight

289

289

Relative Mass: 288.19274(62#)

Electron Configuration

[Rn] 7s2 7p3 5f14 6d10(predicted)

Atomic Radius

Empirical Atomic Radius : empirical: 187 pm (predicted)

Oxidation States

1, 3 ​(prediction)

Physical Description

Expected to be a Solid

Element Classification

Metal

Element Period Number

7

Element Group Number

15 - Pnictogen

Melting Point

670K​(400°C,​750°F)(predicted)

Boiling Point

~1400K​(~1100°C,​~2000°F)(predicted)

Estimated Crustal Abundance

Not Applicable

Estimated Oceanic Abundance

Not Applicable

History

On February 2, 2004, scientists working at the Joint Institute for Nuclear Research in Dubna, Russia, along with scientists from the U.S. Department of Energy's Lawrence Livermore National Laboratory and Oak Ridge National Laboratory, announced the creation of moscovium. In experiments performed between July 14, 2003 and August 10, 2003, atoms of americium-243 were bombarded with ions of calcium-48 using a device called a cyclotron. This produced one atom of moscovium-287 and three atoms of moscovium-288. All four atoms quickly decayed into other elements. Moscovium's most stable isotope, moscovium-289, has a half-life of about 220 milliseconds. It decays into nihonium-285 through alpha decay.

On Novemer 28th, 2016, element 115 was named Moscovium with the symbol Mc. Moscovium is the Moscow region of Russia, which is home to much of Russia’s superheavy element research. Muscovium was discovered by together by the Joint Institute for Nuclear Research, Dubna (Russia), Oak Ridge National Laboratory (USA), Vanderbilt University (USA) and Lawrence Livermore National Laboratory (USA).

Description

Moscovium does not occur naturally in the Earth’s crust. The name moscovium and the symbol Mc, are the accepted ones for element 115. The name is in recognition of the Moscow region and honors the ancient Russian land that is home to the Joint Institute for Nuclear Research (JIRN), where the discovery experiments were conducted using the Dubna gas filled recoil separator in combination with the heavy ion accelerator capabilities of the Flerov Laboratory of Nuclear Reactions.

48Ca and 243Am were bombarded together in a cyclotron during a series of experiments from 14 July to 10 August 2003 (Fig. IUPAC.115.1). In February 2004, the results from these experiments were released in a report that stated “ununpentium” had been synthesized. This initial name means “115” in the IUPAC systematic naming scheme, which combines Latin and Greek names to produce un-un-pentium for 115. Moscovium has no known isotopic applications aside from scientific research.

Fig. IUPAC.115.1: Accelerated ⁴⁸Ca ion colliding with a ²⁴³Am atom in a cyclotron creating moscovium and nihonium. (Diagram Source: Thomas Tegge, Lawrence Livermore National Laboratory) [672], [673].

[672] Lawrence Livermore National Laboratory Public Affars. Livermore Scientists Team With Russia To Discover Elements 113 and 115.https://www.llnl.gov/news/livermore-scientists-team-russia-discover-elements-113-and-115.
[673] T. Tegge, Lawrence Livermore National Laboratory, Livermore, California.

Users

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

Compounds

See more information at the Moscovium 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 [%]
287Mc 287.190820 ± 0.000475 [Estimated] 60 ms ± 30 2004 α=100%
288Mc 288.192879 ± 0.000575 [Estimated] 177 ms ± 20 2004 α=100%
289Mc 289.193971 ± 0.000834 [Estimated] 410 ms ± 150 2010 α=100%
290Mc 290.196235 ± 0.000635 [Estimated] 840 ms ± 360 2010 α=100%
291Mc 291.197725 ± 0.000789 [Estimated] 1 s [Estimated] α ?; SF ?
292Mc 292.200323 ± 0.000751 [Estimated] 5 s [Estimated] α ?; SF ?

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
    Moscovium

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