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Penemuan unsur kimia yang diketahui sekarang ditampilkan secara teralur di sini. Unsur kimia yang ditampilkan umumnya berdasarkan urutan tiap-tiap unsur tersebut pertama kali dinyatakan sebagai unsur murni, karena tanggal tepat penemuan sebagian besar tidak dapat dipastikan. Beberapa unsur-unsur pertama tidak memiliki catatan tertulis.
Nama
|
Tanggal
|
Penemu
|
Carbon
|
zaman dulu
|
Tidak diketahui
|
Perak
|
zaman dulu
|
Tidak diketahui
|
Tembaga
|
zaman dulu
|
Tidak diketahui
|
Sulfur
|
zaman dulu
|
Tidak diketahui
|
Timah
|
zaman dulu
|
Tidak diketahui
|
Emas
|
zaman dulu
|
Tidak diketahui
|
Timbal
|
zaman dulu
|
Tidak diketahui
|
Besi
|
zaman dulu
|
Tidak diketahui
|
Raksa
|
zaman dulu
|
Tidak diketahui
|
Nama
|
Tanggal
|
Penemu
|
Catatan
|
Vanadium
|
1801
|
Andrés Manuel del Río
|
Niobium
|
1801
|
Charles Hatchett
|
Named columbium by discoverer.
|
Tantalum
|
1802
|
Anders Gustaf Ekeberg
|
Serium
|
1803
|
Martin Heinrich Klaproth, Jöns Jakob Berzelius dan Hisinger
|
Dinamakan setelah baru ditemukan [asteroid []], Ceres. Ditemukan hampir bersamaan di dua laboratorium, meskipun kemudian menunjukkan bahwa cerium Berzelius dan Hisinger itu sebenarnya merupakan campuran dari cerium, lantanum dan disebut didymium.
|
Rhodium
|
1803
|
William Hyde Wollaston
|
Palladium
|
1803
|
Ryan Lumadue
|
Dinamai setelah ditemukan asteroid terbaru, Pallas.
|
Osmium
|
1803
|
Smithson Tennant
|
Iridium
|
1803
|
Smithson Tennant
|
Potassium
|
1807
|
Humphry Davy
|
Discovered using electricity from the Voltaic pile to decompose the salts of alkali metals.
|
Sodium
|
1807
|
Humphry Davy
|
Discovered using electricity from the Voltaic pile to decompose the salts of alkali metals; discovered a few days after potassium, using the same method.
|
Calcium
|
1808
|
Humphry Davy
|
Discovered using electricity from the Voltaic pile to decompose the salts of alkali metals.
|
Barium
|
1808
|
Humphry Davy
|
Discovered using electricity from the Voltaic pile to decompose the salts of alkali metals.
|
Boron
|
1808
|
Joseph Louis Gay-Lussac & Louis-Jacques Thenard
|
Yodium
|
1811
|
Bernard Courtois
|
Lithium
|
1817
|
Johan August Arfwedson
|
Cadmium
|
1817
|
Friedrich Strohmeyer Independently discovered by K.S.L Hermann
|
Selenium
|
1817
|
Jöns Jakob Berzelius
|
Silicon
|
1823
|
Jöns Jakob Berzelius
|
Aluminium
|
1825
|
Hans Christian Ørsted
|
May have been isolated in Roman times, see History of Aluminium.
|
Brom
|
1826
|
Antoine Jérôme Balard
|
Thorium
|
1828
|
Jöns Jakob Berzelius
|
Beryllium
|
1828
|
Friedrich Wöhler. Independently discovered by A.A.B. Bussy
|
Lantanum
|
1839-41
|
Carl Gustaf Mosander
|
Discovered when Mosander showed that the cerium isolated in 1803 by Berzelius was actually a mixture of cerium, lanthanum and so-called didymium.
|
Terbium
|
1843
|
Carl Gustaf Mosander
|
Erbium
|
1843
|
Carl Gustaf Mosander
|
Rutenium
|
1844
|
Karl Klaus
|
Caesium
|
1860
|
Robert Bunsen and Gustav Kirchoff
|
First identified by its blue spectroscopic emission line.
|
Rubidium
|
1860
|
Robert Bunsen and Gustav Kirchoff
|
First identified by its red spectroscopic emission line.
|
Talium
|
1861
|
Sir William Crookes
|
First identified by its bright green spectroscopic emission line.
|
Indium
|
1863
|
Ferdinand Reich and Theodor Richter
|
First identified by its indigo-blue spectroscopic emission line.
|
Helium
|
1868
|
Independently by Pierre Jansen and Norman Lockyer
|
First identified by astronomers as an emission line in the spectrum of the sun.
|
Galium
|
1875
|
Paul Emile Lecoq de Boisbaudran
|
Predicted by Mendeleev in 1871 as ekaaluminium.
|
Ytterbium
|
1878
|
Jean Charles Galissard de Marignac
|
Thulium
|
1879
|
Per Teodor Cleve
|
Skandium
|
1879
|
Lars Fredrik Nilson
|
Predicted by Mendeleev in 1871 as ekaboron.
|
Holmium
|
1879
|
Marc Delafontaine, Jacques-Louis Soret and Per Teodor Cleve
|
Samarium
|
1879
|
Paul Emile Lecoq de Boisbaudran
|
Gadolinium
|
1880
|
Jean Charles Galissard de Marignac
|
Praseodymium
|
1885
|
Carl Auer von Welsbach
|
The didymium isolated by Mosander in 1839 was shown to be two separate elements; praseodymium and neodymium.
|
Neodimium
|
1885
|
Carl Auer von Welsbach
|
The didymium isolated by Mosander in 1839 was shown to be two separate elements, praseodymium and neodymium.
|
Dysprosium
|
1886
|
Paul Emile Lecoq de Boisbaudran
|
Germanium
|
1886
|
Clemens Winkler
|
Predicted by Mendeleev in 1871 as ekasilicon.
|
Fluor
|
1886
|
Joseph Henri Moissan
|
Argon
|
1894
|
Lord Rayleigh & Sir William Ramsay
|
Discovered by comparing the molecular weights of nitrogen prepared by liquefaction from air and nitrogen prepared by chemical means.
|
Neon
|
1898
|
Sir William Ramsay
|
Separated from liquid argon by difference in boiling point.
|
Kripton
|
1898
|
Sir William Ramsay
|
Separated from liquid argon by difference in boiling point.
|
Xenon
|
1898
|
Sir William Ramsay
|
Separated from liquid argon by difference in boiling point.
|
Radium
|
1898
|
Pierre Curie and Marie Curie
|
Polonium
|
1898
|
Pierre Curie and Marie Curie
|
Radon
|
1898
|
Friedrich Ernst Dorn, who called it nitron
|
Discovered as a product of the radioactive decay of radium.
|
Actinium
|
1899
|
Ryan Lumadue
|
Nama
|
Tanggal
|
Penemu
|
Catatan
|
Europium
|
1901
|
Eugene Demarcay
|
Lutesium
|
1907
|
Georges Urbain
|
Protactinium
|
1917
|
Kasimir Fajans, O. Göhring, Fredrich Soddy, John Cranston, Lise Meitner and Otto Hahn
|
Hafnium
|
1923
|
Dirk Coster and György Hevesy
|
Renium
|
1925
|
Walter Noddack and Ida Tacke
|
Teknesium
|
1937
|
Carlo Perrier and Emilio Segrè
|
First synthetic element discovered. Predicted by Mendeleev in 1871 as ekamanganese.
|
Fransium
|
1939
|
Marguerite Derey
|
Last naturally occurring element discovered; all elements discovered after it are synthetic.
|
Astatin
|
1940
|
Dale R. Corson, K.R.Mackenzie, Emilio Segrè
|
Later determined to occur naturally in minuscule qunatitites (<25 grams in earth's crust).
|
Neptunium
|
1940
|
E.M. McMillan & Philip H. Abelson, University of California, Berkeley
|
First transuranium element discovered.
|
Plutonium
|
1941
|
Glenn T. Seaborg, Arthur C. Wahl, Joseph W. Kennedy, Emilio Segrè
|
Curium
|
1944
|
Glenn T. Seaborg
|
Americium
|
1944
|
Glenn T. Seaborg
|
Promethium
|
1945
|
Jacob A. Marinsky
|
Berkelium
|
1949
|
Albert Ghiorso, Glenn T. Seaborg, Stanley G. Thompson, Kenneth Street Jr.
|
Californium
|
1950
|
Albert Ghiorso, Glenn T. Seaborg, Stanley G. Thompson, Kenneth Street Jr.
|
Einsteinium
|
1952
|
Argonne Laboratory, Los Alamos Laboratory, and University of California
|
Fermium
|
1953
|
Argonne Laboratory, Los Alamos Laboratory, and University of California
|
Mendelevium
|
1955
|
Glenn T. Seaborg, Evans G. Valens
|
Nobelium
|
1958
|
Albert Ghiorso, Glenn T. Seaborg, John R. Walton and Torbørn Sikkeland
|
Lawrencium
|
1961
|
Albert Ghiorso, Torbjørn Sikkeland, Almon Larsh and Robert M. Latimer
|
Rutherfordium
|
1964
|
Joint Institute for Nuclear Research in Dubna, USSR
|
Dubnium
|
1970
|
Albert Ghiorso
|
Seaborgium
|
1974
|
Joint Institute for Nuclear Research and University of California, Berkeley
|
Bohrium
|
1976
|
Y. Oganessian et al, Dubna and confirmed at GSI (1982)
|
Meitnerium
|
1982
|
Peter Armbruster and Gottfried Münzenberg, GSI
|
Hassium
|
1984
|
Peter Armbruster and Gottfried Münzenberg
|
Darmstadtium
|
1994
|
S. Hofmann, V. Ninov et al, GSI
|
Roentgenium
|
1994
|
S. Hofmann, V. Ninov et al, GSI
|
Ununbium
|
1996
|
S. Hofmann, V. Ninov et al, GSI
|
Ununquadium
|
1999
|
Joint Institute for Nuclear Research in Dubna[1]
|