Zircon was known as a gemstone from ancient times, but it was not known to contain a new element until the work of German chemist
Martin Heinrich Klaproth in 1789. He analysed the zircon-containing mineral
jargoon and found a new earth (oxide), but was unable to isolate the element from its oxide. Cornish chemist
Humphry Davy also attempted to isolate this new element in 1808 through
electrolysis, but failed: he gave it the name zirconium. In 1824, Swedish chemist
Jöns Jakob Berzelius isolated an
impure form of zirconium, obtained by heating a mixture of
potassium and
potassium zirconium fluoride in an iron tube. After analyzing the sand, he determined the weakly magnetic sand to contain
iron oxide and a metal oxide that he could not identify. During that same year, mineralogist
Franz Joseph Muller produced the same metal oxide and could not identify it. In 1795, chemist
Martin Heinrich Klaproth independently rediscovered the metal oxide in
rutile from the Hungarian village Boinik. Berzelius was also the first to prepare titanium metal (albeit impurely), doing so in 1825. The
X-ray spectroscopy done by
Henry Moseley in 1914 showed a direct dependency between
spectral line and
effective nuclear charge. This led to the nuclear charge, or
atomic number of an element, being used to ascertain its place within the periodic table. With this method, Moseley determined the number of
lanthanides and showed that there was a missing element with atomic number 72. This spurred chemists to look for it.
Georges Urbain asserted that he found element 72 in the
rare earth elements in 1907 and published his results on
celtium in 1911. Neither the spectra nor the chemical behavior he claimed matched with the element found later, and therefore his claim was turned down after a long-standing controversy. By early 1923, several physicists and chemists such as
Niels Bohr and
Charles Rugeley Bury suggested that element 72 should resemble zirconium and therefore was not part of the rare earth elements group. These suggestions were based on Bohr's theories of the atom, the X-ray spectroscopy of Moseley, and the chemical arguments of
Friedrich Paneth. Encouraged by this, and by the reappearance in 1922 of Urbain's claims that element 72 was a rare earth element discovered in 1911,
Dirk Coster and
Georg von Hevesy were motivated to search for the new element in zirconium ores.
Hafnium was discovered by the two in 1923 in Copenhagen, Denmark. The place where the discovery took place led to the element being named for the Latin name for "Copenhagen",
Hafnia, the home town of
Niels Bohr. Hafnium was separated from zirconium through repeated recrystallization of the double
ammonium or
potassium fluorides by
Valdemar Thal Jantzen and von Hevesy.
Anton Eduard van Arkel and
Jan Hendrik de Boer were the first to prepare metallic hafnium by passing hafnium tetraiodide vapor over a heated
tungsten filament in 1924. The long delay between the discovery of the lightest two group 4 elements and that of hafnium was partly due to the rarity of hafnium, and partly due to the extreme similarity of zirconium and hafnium, so that all previous samples of zirconium had in reality been contaminated with hafnium without anyone knowing. The last element of the group,
rutherfordium, does not occur naturally and had to be made by synthesis. The first reported detection was by a team at the
Joint Institute for Nuclear Research (JINR), which in 1964 claimed to have produced the new element by bombarding a
plutonium-242 target with
neon-22 ions, although this was later put into question. More conclusive evidence was obtained by researchers at the
University of California, Berkeley, who synthesised element 104 in 1969 by bombarding a
californium-249 target with
carbon-12 ions. A
controversy erupted on who had discovered the element, which each group suggesting its own name: the Dubna group named the element
kurchatovium after
Igor Kurchatov, while the Berkeley group named it
rutherfordium after
Ernest Rutherford. Eventually a joint working party of
IUPAC and
IUPAP, the Transfermium Working Group, decided that credit for the discovery should be shared. After various compromises were attempted, in 1997, IUPAC officially named the element rutherfordium following the American proposal. ==Characteristics==