Polyatomic ion

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An electrostatic potential map of the nitrate ion (NO3). Areas coloured translucent red, around the outside of the red oxygen atoms themselves, signify the regions of most negative electrostatic potential


A polyatomic ion, also known as a molecular ion, is a charged chemical species (ion) composed of two or more atoms covalently bonded or of a metal complex that can be considered to be acting as a single unit. The prefix poly- means "many," in Greek, but even ions of two atoms are commonly referred to as polyatomic. In older literature, a polyatomic ion is also referred to as a radical, and less commonly, as a radical group. In contemporary usage, the term radical refers to free radicals that are (not necessarily charged) species with an unpaired electron.


An example of a polyatomic ion is the hydroxide ion; consisting of one oxygen atom and one hydrogen atom, hydroxide has a charge of −1. Its chemical formula is OH. An ammonium ion is made up of one nitrogen atom and four hydrogen atoms: it has a charge of +1, and its chemical formula is NH+
4
.


Polyatomic ions are often useful in the context of acid-base chemistry or in the formation of salts. A polyatomic ion can often be considered as the conjugate acid/base of a neutral molecule. For example, the conjugate base of sulfuric acid (H2SO4) is the polyatomic hydrogen sulfate anion (HSO
4
). The removal of another hydrogen ion yields the sulfate anion (SO2−
4
).




Contents





  • 1 Nomenclature of polyatomic anions


  • 2 Examples of common polyatomic ions


  • 3 See also


  • 4 External links




Nomenclature of polyatomic anions


There are two "rules" that can be used for learning the nomenclature of polyatomic anions. First, when the prefix bi is added to a name, a hydrogen is added to the ion's formula and its charge is increased by 1, the latter being a consequence of the hydrogen ion's +1 charge. An alternative to the bi- prefix is to use the word hydrogen in its place: the anion derived from H+
+ CO2−
3
, HCO
3
, can be called either bicarbonate or hydrogen carbonate.


Note that many of the common polyatomic anions are conjugate bases of acids derived from the oxides of non-metallic elements. For example, the sulfate anion, SO42−, is derived from H
2
SO
4
, which can be regarded as SO
3
+ H
2
O
.


The second rule looks at the number of oxygens in an ion. Consider the chlorine oxoanion family:


























oxidation state
−1
+1
+3
+5
+7
anion name

chloride

hypochlorite

chlorite

chlorate

perchlorate
formula

Cl


ClO


ClO
2


ClO
3


ClO
4

structure

The chloride ion

The hypochlorite ion

The chlorite ion

The chlorate ion

The perchlorate ion

First, think of the -ate ion as being the "base" name, in which case the addition of a per- prefix adds an oxygen. Changing the -ate suffix to -ite will reduce the oxygens by one, and keeping the suffix -ite and adding the prefix hypo- reduces the number of oxygens by one more. In all situations, the charge is not affected. The naming pattern follows within many different oxyanion series based on a standard root for that particular series. The -ite has one less oxygen than the -ate, but different -ate anions might have different numbers of oxygen atoms.


These rules will not work with all polyatomic anions, but they do work with the most common ones (sulfate, phosphate, nitrate, chlorate).



Examples of common polyatomic ions


The following tables give examples of commonly encountered polyatomic ions. Only a few representatives are given, as the number of polyatomic ions encountered in practice is very large. A more complete list may be viewed at List of all polyatomic ions.





















































Anions

Acetate (ethanoate)

CH
3
COO
or C
2
H
3
O
2


Acetylide

C2−
2


Benzoate

C
6
H
5
COO
or C
7
H
5
O
2


Carbonate

CO2−
3


Chromate

CrO2−
4


Citrate

C
6
H
5
O3−
7


Cyanide

CN


Hypochlorite

ClO


Chlorite

ClO
2


Chlorate

ClO
3


Perchlorate

ClO
4


Dichromate

Cr
2
O2−
7


Dihydrogen phosphate

H
2
PO
4


Hydrogen carbonate (bicarbonate)

HCO
3


Hydrogen sulfate (bisulfate)

HSO
4


Hydrogen phosphate

HPO2−
4


Hydroxide

OH


Nitrite

NO
2


Nitrate

NO
3


Peroxide

O2−
2


Permanganate

MnO
4


Phosphite

PO3−
3


Phosphate

PO3−
4


Sulfite

SO2−
3


Sulfate

SO2−
4
















Cations

Ammonium

NH+
4


Phosphonium

PH+
4


Hydronium

H
3
O+


Fluoronium

H
2
F+


Mercury(I)

Hg2+
2


Tropylium

C
7
H+
7


Guanidinium

C(NH
2
)+
3


See also


  • Monatomic ions

  • Salt (chemistry)

  • Mass spectrometry

  • Hydrogen peroxide

  • Molecule

  • Hydrogen molecular ion


External links


  • List of polyatomic ions

  • A Beginner's Guide To Polyatomic Ions.


  • Tables of Common Polyatomic Ions, including PDB files

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