Of the elements with atomic numbers 1 to 92, all but four (43-technetium, 61-promethium, 85-astatine, and 87-francium) occur in easily detectable quantities on earth, having stable, or very long half life isotopes, or are created as common products of the decay of Uranium.
All of the elements with higher atomic numbers, however, have been first discovered artificially, and other than plutonium and neptunium, none occur naturally on earth. They are all radioactive, with a half-life much shorter than the age of the Earth, so any atoms of these elements, if they ever were present at the earth's formation, have long since vanished, other than trace amounts of Neptunium and Plutonium formed in some Uranium rich rock, and small amounts which escaped atmospheric tests of atomic weapons. The Np and Pu generated are from spontaneous fission in uranium ore with two subsequent beta decays (U-238 → U-239 → Np-239 → Pu-239).
Transuranic elements that have not been discovered, or have been discovered but are not yet officially named, use IUPAC's systematic element names.
The naming of transuranic elements is a source of controversy.
94. plutonium, Pu, named after the planet Pluto, following the same naming rule as it follows neptunium and Pluto follows Neptune in the planetary sequence.
95. americium, Am, named because it is an analog to europium, and so was named after the continent where it was first produced.
105. An element for which the Berkeley group proposed the name hahnium, after Otto Hahn, the first chemist to detect evidence of nuclear fission, but which is now named dubnium, Db (see below).
106. seaborgium, Sg, named after Glenn T. Seaborg. This name caused controversy because Seaborg was still alive, but eventually became accepted by international chemists.
107. bohrium, Bh, named after the Danish physicist Niels Bohr, important in the elucidation of the structure of the atom. The group had first suggested the name nielsbohrium, but the ultimately accepted name is bohrium.
109. meitnerium, Mt, named after Lise Meitner, a German physicist who was one of the earliest scientists to become involved in the study of nuclear fission.
110. darmstadtium, Ds named after Darmstadt, Germany. Where the Gesellschaft für Schwerionenforschung is situated which discovered the element.
111. roentgenium, Rg named after Wilhelm Roentgen, discoverer of the X-Ray
112. This element has not yet been given a name.
Now-obsolete claims of discovery
Two other groups had worked on the preparation of transuranium elements, but their original reports have since been discredited:
A group at the Nobel Institute in Sweden, which claimed to have produced element 102, and named it nobelium, in honor of Alfred Nobel, inventor of dynamite and donor of the endowment for the Nobel Prizes. The name "nobelium" was ultimately agreed upon, though their production is no longer accepted.
104, which they named kurchatovium after the Soviet chemist Igor Kurchatov.
105. Although their claim is not accepted, the name dubnium is now official for this element, named after the city where they worked. They originally proposed nielsbohrium for this element.
*The existence of these elements has been confirmed, however the names and symbols given are provisional as no names for the elements have been agreed on.
