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An ion is an electrically charged atom or molecule. Negatively charged ions are known as anions
(which are attracted to anodes) while positively charged ions are known as
cations (which are attracted to cathodes). (Cation is pronounced
"cat eye on", not "kay shun".)
Scientific fields
In chemistry, an ion is an electrically charged molecule or atom that has gained or lost electrons from its normal complement in a
process known as ionization.
In physics, completely ionized atomic nuclei, such as those in alpha radiation, are more commonly called charged particles.
Ionization is usually performed by the application of high energy to atoms, in the form of electrical voltage or by high-energy radiation. An ionized gas is called plasma.
History
Ions were first theorized by Michael Faraday around 1830, to describe the portions of molecules that travel either to an anion or to a cation. However,
the mechanism by which this was achieved was not described until 1884 by Svante August Arrhenius in his doctoral dissertation to the
University of Uppsala. His theory was initially not
accepted (he got his degree with a minimum passing grade) but he won the Nobel Prize in Chemistry in 1903 for the same
dissertation.
Analysis
For single atoms in a vacuum, there are physical constants associated with the process of ionization. The energy needed to remove electrons from an atom is called the ionization
energy, or ionization potential. These terms are also used to describe ionization of molecules and
solids, but the values are not constant because ionization can be affected by the local chemistry, geometry, and temperature.
Ionization energies decrease down a group of the Periodic Table, and
increase left-to-right across a period. These trends are exact opposite of the atomic radius periodic trends. Electrons in smaller atoms are attracted more strongly to the nucleus,
therefore the ionization energy is greater. In larger atoms, the electrons are not held as strongly so the required ionization
energy is lesser.
| Element |
First |
Second |
Third |
Fourth |
Fifth |
Sixth |
Seventh |
| Na |
496 |
4560 |
| Mg |
738 |
1450 |
7730 |
| Al |
577 |
1816 |
2744 |
11,600 |
| Si |
786 |
1577 |
3228 |
4354 |
16,100 |
| P |
1060 |
1890 |
2905 |
4950 |
6270 |
21,200 |
| S |
999 |
2260 |
3375 |
4565 |
6950 |
8490 |
11,000 |
| Cl |
1256 |
2295 |
3850 |
5160 |
6560 |
9360 |
11,000 |
| Ar |
1520 |
2665 |
3945 |
5770 |
7230 |
8780 |
12,000 |
| Successive Ionization Energies in kJ/mol |
The first ionization energy is the energy required to remove one electron, the second to remove two electrons, and so on. The
successive ionization energies are always greater than the previous, and a certain nth ionization energy will be significantly
larger than the rest. For this reason, ions tend to form in certain ways. For example, sodium is found as Na+, but not usually Na2+ due to the large
amount of ionization energy required. Likewise, magnesium is found as
Mg2+, but not Mg3+ and aluminum
may exist as an Al3+ cation.
Etymology
The word "ion" is from Greek ion, present participle of
ienai "go", thus "a goer". "Anion" and "cation" mean "up-goer" and "down-goer", and "anode" and "cathode" are "way up"
and "way down" (hodos = road, way).
Other
In Greek mythology, Ion was a son of Xuthus and Creusa. He founded the Ionian race and became a king of
Athens.
The term is used for an element of the Plato texts, and a Window manager.
External links
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