Template:Infobox livermorium

{{Infobox element

|symbol =Lv

|Z =116

|number =116

|name =livermorium

|mass number comment=(data not decisive){{efn|name="most stable isotope"|The most stable isotope of livermorium cannot be determined based on existing data due to uncertainty that arises from the low number of measurements. The half-life of ²⁹³Lv corresponding to two standard deviations is, based on existing data, {{val|57|86|34}} milliseconds, whereas that of ²⁹¹Lv is {{val|19|34|12}} milliseconds; these measurements have overlapping confidence intervals.{{NUBASE2020|ref}}}}

|abundance=

|abundance in earth's crust=

|abundance in oceans=

|abundance in solar system=

|left=moscovium

|right=tennessine

|above=Po

|below=—

|appearance=

|electrons per shell=2, 8, 18, 32, 32, 18, 6

|electrons per shell comment=(predicted)

|phase=solid

|phase comment=(predicted){{cite book| title=The Chemistry of the Actinide and Transactinide Elements| editor1-last=Morss| editor2-first=Norman M.| editor2-last=Edelstein| editor3-last=Fuger| editor3-first=Jean| last1=Hoffman| first1=Darleane C.| last2=Lee| first2=Diana M.| last3=Pershina| first3=Valeria| chapter=Transactinides and the future elements| publisher=Springer Science+Business Media| year=2006| isbn=978-1-4020-3555-5| location=Dordrecht, The Netherlands| edition=3rd| ref=CITEREFHaire2006}}{{cite journal

|last1=Bonchev |first1=Danail |last2=Kamenska |first2=Verginia |year=1981 |title=Predicting the Properties of the 113–120 Transactinide Elements |journal=Journal of Physical Chemistry |volume=85 |issue=9 |pages=1177–1186 |publisher=American Chemical Society |doi=10.1021/j150609a021 |url=https://www.researchgate.net/publication/239657207 }}

|density gpcm3nrt=12.9

|density gpcm3nrt comment=(predicted)

|melting point K=637–780

|melting point C=364–507

|melting point F=687–944

|melting point comment=(extrapolated)

|boiling point K=1035–1135

|boiling point C=762–862

|boiling point F=1403–1583

|boiling point comment=(extrapolated)

|heat fusion=7.61

|heat fusion comment=(extrapolated)

|heat vaporization=42

|heat vaporization comment=(predicted){{Fricke1975}}

|atomic radius=183

|atomic radius comment=(predicted){{Fricke1975}}

|covalent radius=162–166

|covalent radius comment=(extrapolated)

|number of ionization energies=5

|ionization energy 1=663.9

|ionization energy 1 comment=(predicted){{cite book |chapter=Theoretical Chemistry of the Heaviest Elements |last1=Pershina |first1=Valeria |editor1-first=Matthias |editor1-last=Schädel |editor2-first=Dawn |editor2-last=Shaughnessy |title=The Chemistry of Superheavy Elements |publisher=Springer Science & Business Media |edition=2nd |page=154 |isbn=9783642374661}}

|ionization energy 2=1330

|ionization energy 2 comment=(predicted){{Fricke1975}}

|ionization energy 3=2850

|ionization energy 3 comment=(predicted){{Fricke1975}}

|CAS number=54100-71-9

|magnetic susceptibility=

|magnetic susceptibility ref=

|naming=after Lawrence Livermore National Laboratory,{{cite web | url=http://www.iupac.org/news/news-detail/article/element-114-is-named-flerovium-and-element-116-is-named-livermorium.html | title=Element 114 is Named Flerovium and Element 116 is Named Livermorium | publisher= IUPAC | date=30 May 2012|archive-url=https://web.archive.org/web/20120602010328/https://iupac.org/news/news-detail/article/element-114-is-named-flerovium-and-element-116-is-named-livermorium.html|archive-date=2 June 2012}} itself named partly after Livermore, California

|discovered by=Joint Institute for Nuclear Research and Lawrence Livermore National Laboratory

|discovery date=2000

|QID=Q1304

}}

{{Infobox element/element navigation|symbol=Lv}}