Ununquadium

Main article: Isotopes of ununquadium
iso	NA	half-life	DM	DE (MeV)	DP
²⁸⁹Uuq	syn	2.6 s	alpha	9.82	²⁸⁵Uub
²⁸⁸Uuq	syn	0.8 s	alpha	9.94	²⁸⁴Uub
²⁸⁷Uuq	syn	0.48 s	alpha	10.02	²⁸³Uub
²⁸⁶Uuq	syn	0.13 s	alpha/SF	10.19	²⁸²Uub

References

Ununquadium (pronounced /juːnənˈkwɒdiəm/), or eka-lead, is the temporary name of a radioactive chemical element in the periodic table that has the temporary symbol Uuq and has the atomic number 114.

Discovery History

In December 1998, scientists at Dubna (Joint Institute for Nuclear Research) in Russia bombarded a Pu-244 target with Ca-48 ions. A single atom of element 114, decaying by 9.67 MeV alpha-emission with a half-life of 30 s, was produced and assigned to ²⁸⁹114. This observation was subsequently published in January 1999.^[1]However, the decay chain observed has not been repeated and the exact identity of this activity is unknown although it is possible that it is due to a meta-stable isomer, namely ^289m114.

In March 1999, the same team replaced the Pu-244 target with a Pu-242 one in order to produce other isotopes. This time two atoms of element 114 were produced, decaying by 10.29 MeV alpha-emission with a half-life of 5.5 s. They were assigned as ²⁸⁷114. Once again, this activity has not been seen again and it is unclear what nucleus was produced.^[1] It is possible that it was a meta-stable isomer, namely ^287m114.

The now-confirmed discovery of element 114 was made in June 1999 when the Dubna team repeated the Pu-244 reaction. This time, two atoms of element 114 were produced decaying by emission of 9.82 MeV alpha particles with a half life of 2.6 s. This activity was initially assigned to ²⁸⁸114 in error, due to the confusion regarding the above observations. Further work in Dec 2002 has allowed a positive reassignment to ²⁸⁹114.

$\,^{244}_{94}\mathrm{Pu} + \,^{48}_{20}\mathrm{Ca} \, \to \,^{292}_{114}\mathrm{Uuq} \,^{*} \to \ ^{289}_{114}\mathrm{Uuq}+ 3 \; ^1_0\mathrm{n} \;$

Methods of Synthesis

Research in September 2003 demonstrated that element 114 can also be synthesized by bombarding plutonium-242 with calcium-48 ions:

$\,^{242}_{94}\mathrm{Pu} + \,^{48}_{20}\mathrm{Ca} \, \to \,^{290}_{114}\mathrm{Uuq} \,^{*} \to \ ^{288,287,286}\mathrm{Uuq}$

The isotopes of ununquadium have also been observed in the decay of elements 116 and 118

Evaporation Residue	Observed Uuq isotope
²⁹³116	²⁸⁹114
²⁹²116	²⁸⁸114
²⁹¹116	²⁸⁷114
²⁹⁴118 , ²⁹⁰116	²⁸⁶114

Chemical Properties

It is expected to be a soft, dense metal that tarnishes in air, with a melting point around 200 degrees Celsius. Experiments aiming at the determination of the chemical properties of element 114 are planned to be undertaken in 2008 by the team at Dubna.

In search for the island of stability - ununquadium-298

According to the island of stability theory, some nuclides around the area of 114 protons and 184 neutrons (i.e. isotope ²⁹⁸114) can be expected to be relatively stable in comparison to the surrounding nuclides. All isotopes of ununquadium synthesized so far are neutron-deficient. This means that they contain significantly fewer neutrons than 184, which is one of the magic number of neutrons that is believed to make the isotope more stable. The isotope ²⁹⁸114 is expected to decay by alpha-emission with a half-life of ~11 minutes.

Difficulty in synthesis

The direct synthesis of ununquadium-298 by a fusion-evaporation pathway is impossible since no known combination of target and projectile can provide 184 neutrons in the compound nucleus.

It has been suggested that such a neutron-rich isotope can be formed by the quasi-fission of a massive nucleus. Such a reaction pathway may occur using the partial fusion of Cm-248 and U-238 nuclei. It may also be possible to generate ununquadium-298, if nuclear transfer reactions can be achieved.^{[citation needed]} One of these reactions may be

$\,^{204}_{80}\mathrm{Hg} + \,^{136}_{54}\mathrm{Xe} \, \to \,^{298}_{114}\mathrm{Uuq} + \,^{40}_{20}\mathrm{Ca} + 2 \; ^1_0\mathrm{n} \;$

References

Report in Science

External links

ar:أنون كواديوم ast:Ununquadiu bn:ইউনুনকোয়াডিয়াম be:Унунквадый bs:Ununkvadijum ca:Ununquadi cs:Ununquadium co:Ununquadiu de:Ununquadium et:Ununkvaadium eo:Ununkvadio fr:Ununquadium fur:Ununquadium gl:Ununquadio (elemento) ko:우눈쿼듐 hr:Ununkvadij it:Ununquadio he:אונונקוודיום ku:Ûnûnkûadyûm la:Ununquadium lb:Ununquadium hu:Ununquadium nl:Ununquadium ja:ウンウンクアジウム no:Ununquadium nn:Ununquadium oc:Ununqüadi simple:Ununquadium sk:Ununquadium sr:Унунквадијум sh:Ununkvadijum fi:Ununkvadium sv:Ununquadium th:อูนอูนควอเดียม uk:Унунквадій

Acknowledgement and Attribution Regarding Sources of Content

Some of the initial content on this page may be incorporated in part from copyleft sources in the public domain including wikis such as Wikipedia and AskDrWiki. Drug information for patients came from the The National Library of Medicine. Infectious disease information may have come from the Centers for Disease Control (CDC). Differential Diagnoses are drawn from clinicians as well as an amalgamation of 3 sources: 1.The Disease Database; 2. Kahan, Scott, Smith, Ellen G. In A Page: Signs and Symptoms. Malden, Massachusetts: Blackwell Publishing, 2004:3; 3. Sailer, Christian, Wasner, Susanne. Differential Diagnosis Pocket. Hermosa Beach, CA: Borm Bruckmeir Publishing LLC, 2002:7 .

[1]

Ununquadium

Discovery History

Methods of Synthesis

Chemical Properties

In search for the island of stability - ununquadium-298

Difficulty in synthesis

See also

References

External links

Acknowledgement and Attribution Regarding Sources of Content

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