IUPAC nomenclature of inorganic chemistry
||It has been suggested that Nomenclature of Inorganic Chemistry be merged into this article. (Discuss) Proposed since March 2012.|
The IUPAC nomenclature of inorganic chemistry is a systematic method of naming inorganic chemical compounds, as recommended by the International Union of Pure and Applied Chemistry (IUPAC). The rules are commonly known as "The Red Book" Ideally, every inorganic compound should have a name from which an unambiguous formula can be determined. There is also an IUPAC nomenclature of organic chemistry.
The names "caffeine" and "3,7-dihydro-1,3,7-trimethyl-1H-purine-2,6-dione" both signify the same chemical. The systematic name encodes the structure and composition of the caffeine molecule in some detail, and provides an unambiguous reference to this compound, whereas the name "caffeine" just names it. These advantages make the systematic name far superior to the common name when absolute clarity and precision are required. However, for the sake of brevity, even professional chemists will use the non-systematic name almost all of the time, because caffeine is a well-known common chemical with a unique structure. Similarly, H2O is most often simply called water in English, though other chemical names do exist.
- Single atom anions are named with an -ide suffix: for example, H− is hydride.
- Compounds with a positive ion (cation): The name of the compound is simply the cation's name (usually the same as the element's), followed by the anion. For example, NaCl is sodium chloride, and CaF2 is calcium fluoride.
- Cations able to take on more than one positive charge are labeled with Roman numerals in parentheses. For example, Cu+ is copper(I), Cu2+ is copper(II). An older, deprecated notation is to append -ous or -ic to the root of the Latin name to name ions with a lesser or greater charge. Under this naming convention, Cu+ is cuprous and Cu2+ is cupric. For naming metal complexes see the page on complex (chemistry).
- Oxyanions (polyatomic anions containing oxygen) are named with -ite or -ate, for a lesser or greater quantity of oxygen, respectively. For example, NO2− is nitrite, while NO3− is nitrate. If four oxyanions are possible, the prefixes hypo- and per- are used: hypochlorite is ClO−, perchlorate is ClO4−,
- The prefix bi- is a deprecated way of indicating the presence of a single hydrogen ion, as in "sodium bicarbonate" (NaHCO3). The modern method specifically names the hydrogen atom. Thus, NaHCO3 would be pronounced sodium hydrogen carbonate.
Positively charged ions are called cations and negatively charged ions are called anions. The cation is always named first. Ions can be metals or polyatomic ions. Therefore the name of the metal or positive polyatomic ion is followed by the name of the non-metal or negative polyatomic ion. The positive ion retains its element name whereas for a single non-metal anion the ending is changed to -ide.
When the metal has more than one possible ionic charge or oxidation number the name becomes ambiguous. In these cases the oxidation number (the same as the charge) of the metal ion is represented by a Roman numeral in parentheses immediately following the metal ion name. For example in uranium(VI) fluoride the oxidation number of uranium is 6. Another example is the iron oxides. FeO is iron(II) oxide and Fe2O3 is iron(III) oxide.
An older system used prefixes and suffixes to indicate the oxidation number, according to the following scheme:
|Oxidation state||Cations and acids||Anions|
|Lowest||hypo- -ous||hypo- -ite|
|per- -ic||per- -ate|
|Highest||hyper- -ic||hyper- -ate|
Thus the four oxyacids of chlorine are called hypochlorous acid (HOCl), chlorous acid (HOClO), chloric acid (HOClO2) and perchloric acid (HOClO3), and their respective conjugate bases are the hypochlorite, chlorite, chlorate and perchlorate ions. This system has partially fallen out of use, but survives in the common names of many chemical compounds: the modern literature contains few references to "ferric chloride" (instead calling it "iron(III) chloride"), but names like "potassium permanganate" (instead of "potassium manganate(VII)") and "sulfuric acid" abound.
Naming simple ionic compounds
An ionic compound is named by its cation followed by its anion. See polyatomic ions for a list of possible ions.
For cations that take on multiple charges, the charge is written using Roman numerals in parentheses immediately following the element name. For example, Cu(NO3)2 is copper(II) nitrate, because the charge of two nitrate ions (NO3−1) is 2 × −1 = −2, and since the net charge of the ionic compound must be zero, the Cu ion has a 2+ charge. This compound is therefore copper(II) nitrate. In the case of cations with a 4+ oxidation state, the acceptable format for the Roman numeral 4 is IV and not IIII.
The Roman numerals in fact show the oxidation number, but in simple ionic compounds (i.e., not metal complexes) this will always equal the ionic charge on the metal. For a simple overview see , for more details see selected pages from IUPAC rules for naming inorganic compounds.
List of common ion names
- NH4+ ammonium
- H3O+ hydronium
- NO3− nitrate
- NO2− nitrite
- ClO− hypochlorite
- ClO2− chlorite
- ClO3− chlorate
- ClO4− perchlorate
- SO32− sulfite
- SO42− sulfate
- HSO3− hydrogen sulfite (or bisulfite)
- HCO3− hydrogen carbonate (or bicarbonate)
- CO32− carbonate
- PO43− phosphate
- HPO42− hydrogen phosphate
- H2PO4− dihydrogen phosphate
- CrO42− chromate
- Cr2O72− dichromate
- BO33− borate
- AsO43− arsenate
- C2O42− oxalate
- CN− cyanide
- SCN− thiocyanate
- MnO4− permanganate
Hydrates are ionic compounds that have absorbed water. They are named as the ionic compound followed by a numerical prefix and -hydrate. The numerical prefixes used are listed below (see IUPAC numerical multiplier):
For example, CuSO4 · 5H2O is "copper(II) sulfate pentahydrate".
Naming molecular compounds
Inorganic molecular compounds are named with a prefix (see list above) before each element. The more electronegative element is written last and with an -ide suffix. For example, H2O (water) can be called dihydrogen monoxide. Organic molecules do not follow this rule. In addition, the prefix mono- is not used with the first element; for example, SO2 is sulfur dioxide, not "monosulfur dioxide". Sometimes prefixes are shortened when the ending vowel of the prefix "conflicts" with a starting vowel in the compound. This makes the name easier to pronounce; for example, CO is "carbon monoxide" (as opposed to "monooxide").
Acids are named by the anion they form when dissolved in water. If an acid forms an anion ending in ide, then its name is formed by adding the prefix hydro to the anion's name and replacing the ide with ic. Finally the word acid is appended. For example, hydrochloric acid forms a chloride anion. With sulfur, however, the whole word is kept instead of the root: i.e.: hydrosulfuric acid. Secondly, anions with an -ate suffix are formed when acids with an -ic suffix are dissolved, e.g. chloric acid (HClO
3) dissociates into chlorate anions to form salts such as sodium chlorate (NaClO
3); anions with an -ite suffix are formed when acids with an -ous suffix are dissolved in water, e.g. chlorous acid (HClO2) disassociates into chlorite anions to form salts such as sodium chlorite (NaClO2).
2005 revision of IUPAC's nomenclature for inorganic compounds
- IUPAC nomenclature
- IUPAC nomenclature of organic chemistry
- List of inorganic compounds
- Water of Crystallization
- Bibliography of IUPAC Recommendations on Inorganic Nomenclature (last updated 17 February 2004)
- ChemTeam Highschool Tutorial
- PDF file SUNY Potsdam.edu
- American Chemical Society, Committee on Nomenclature, Terminology & Symbols
- Nomenclature of Inorganic Chemistry IUPAC Recommendations 2005 - Full text (PDF)
2004 version with separate chapters as pdf: IUPAC Provisional Recommendations for the Nomenclature of Inorganic Chemistry (2004)