Flerovium: the essentials

Flerovium was reported informally in January 1999 following experiments towards the end of December 1998 involving scientists at Dubna (Joint Institute for Nuclear Research) in Russia apparently using isotopes supplied by scientists at the Lawrence Livermore National Laboratory, USA. Only one atom was identified at that time and the claim only just been ratified. The results of calculations suggest that flerovium will not form a tetrafluoride FlF4, but could be isolated as a water-soluble difluoride FlF2.

Table: basic information about and classifications of flerovium.

Flerovium: historical information

Flerovium was discovered by Workers at the Nuclear Institute at Dubna, Russia at 1998 in Dubna, Russia. Origin of name: flerovium (atomic symbol Fl) was named for the Flerov Laboratory of Nuclear Reactions where element 114 was synthesized. Georgiy N. Flerov (1913-1990) was an eminent physicist who discovered the spontaneous fission of uranium. He was the founder of the Joint Institute for Nuclear Research..

Only one atom of flerovium (289114Fl)has ever been made (through a nuclear reaction involving fusing a calcium atom with a plutonium atom) isolation of an observable quantity has never been achieved, and may well never be. The discovery was reported informally in January 1999 following experiments towards the end of December 1998 involving scientists at Dubna (Joint Institute for Nuclear Research) in Russia and the Lawrence Livermore National Laboratory, USA.

Flerovium: physical properties

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Flerovium: orbital properties

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Isolation

Isolation: as only about three atoms of flerovium has ever been made (through nuclear reaction involving fusing a calcium atom with a plutonium atom) isolation of an observable quantity has never been achieved, and may well never be.

24494Pu + 4820Ca → 288114Fl + 4 1n

24494Pu + 4820Ca → 289114Fl + 3 1n

The element decomposes through the emission of an α-particle to form element 112, copernicium, with a half life of about 30 seconds for 289114Fl and 2 seconds for 288114Fl.

A different isotope of element 114, 285114Fl, is observed as a decomposition product of the recently observed element 118. Elements 118 and 116 were identified by accelerating a beam of krypton-86 (8636Kr) ions to an energy of 449 million electron volts and directing the beam onto targets of lead-208 (20882Pb). After 11 days work, just three atoms of the new element were identified. The production rates for element 118 are approximately one in every 1012 interactions.

20882Pb + 8636Kr → 293118Uuo + 1n

Element 118 nucleus decays less than a millisecond after its formation by emitting an α-particle. This results in an isotope of flerovium (mass number 289, containing 116 protons and 173 neutrons). This isotope of element 116, is also radioactive and undergoes further α-decay processes to an isotope of flerovium, element 114, and so on down to at least element 106.

293118Uuo → 289116Lv + 42He (0.12 milliseconds)

289116Lv → 285114Fl + 42He (0.60 milliseconds)

285114Fl → 281112Cn + 42He (0.58 milliseconds)

281112Cn → 277110Ds + 42He (0.89 milliseconds)

277110Rg → 273108Hs + 42He (3 milliseconds)

273108Hs → 269106Sg + 42He (1200 milliseconds)

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flerovium atomic number