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6.3: Polyatomic Ions

  • Page ID
    366503
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    Learning Objectives
    • Given the symbol for a polyatomic ion write the systematic name.
    • Given the systematic name for a polyatomic ion write the symbol.

    Polyatomic Ions

    Some ions consist of groups of atoms covalently bonded together and have an overall electric charge. Covalent bonding will be discussed in the next chapter. Because these ions contain more than one atom, they are called polyatomic ions. The structures, names and formulas of some polyatomic ions are found in Table 3.3.1.

    A-Guide-to-Common-Polyatomic-Ions-–-Colour-Version.png

    Table \(\PageIndex{1}\): Some Polyatomic Ions

    Polyatomic ions have defined formulas, names, and charges that cannot be modified in any way. Table \(\PageIndex{2}\) lists the ion names and ion formulas of the most common polyatomic ions. For example, \(\ce{NO3^{−}}\) is the nitrate ion; it has one nitrogen atom and three oxygen atoms and an overall 1− charge. Figure \(\PageIndex{2}\) lists the most common polyatomic ions.

    Table \(\PageIndex{2}\): Ion Names and Ion Formulas of Common Polyatomic Ions
    Ion Name Ion Formula
    ammonium ion NH4+
    hydroxide ion OH
    cyanide ion CN
    carbonate ion CO3−2
    bicarbonate or hydrogen carbonate HCO3
    acetate ion C2H3O2 or CH3CO2
    chlorate ion ClO3
    nitrate ion NO3
    nitrite ion NO2
    sulfate ion SO4−2
    sulfite ion SO3−2
    phosphate ion PO4−3
    phosphite ion PO3−3

    Note that only one polyatomic ion in this Table, the ammonium ion (NH4+), is a cation. This polyatomic ion contains one nitrogen and four hydrogens that collectively bear a +1 charge. The remaining polyatomic ions are all negatively-charged and, therefore, are classified as anions. However, only two of these, the hydroxide ion and the cyanide ion, are named using the "-ide" suffix that is typically indicative of negatively-charged particles. The remaining polyatomic anions, which all contain oxygen, in combination with another non-metal, exist as part of a series in which the number of oxygens within the polyatomic unit can vary. A single suffix, "-ide," is insufficient for distinguishing the names of the anions in a related polyatomic series. Therefore, "-ate" and "-ite" suffixes are employed, in order to denote that the corresponding polyatomic ions are part of a series. Additionally, these suffixes also indicate the relative number of oxygens that are contained within the polyatomic ions. Note that all of the polyatomic ions whose names end in "-ate" contain one more oxygen than those polyatomic anions whose names end in "-ite." Unfortunately, these suffixes only indicate the relative number of oxygens that are contained within the polyatomic ions. For example, the nitrate ion, which is symbolized as NO3−1, has one more oxygen than the nitrite ion, which is symbolized as NO2−1. However, the sulfate ion is symbolized as SO4−2. While both the nitrate ion and the sulfate ion share an "-ate" suffix, the former contains three oxygens, but the latter contains four. Additionally, both the nitrate ion and the sulfite ion contain three oxygens, but these polyatomic ions do not share a common suffix. Unfortunately, the relative nature of these suffixes mandates that the ion formula/ion name combinations of the polyatomic ions must simply be memorized.


    6.3: Polyatomic Ions is shared under a CC BY-NC-SA 4.0 license and was authored, remixed, and/or curated by LibreTexts.