Oxide
chemical compound
oxide, any of a large and important class of chemical compounds in which oxygen is combined with another element. With the exception of the lighter inert gases (helium [He], neon [Ne], argon [Ar], and krypton [Kr]), oxygen (O) forms at least one binary oxide with each of the elements.
Both metals and nonmetals can attain their highest oxidation states (i.e., donate their maximum number of available valence electrons) in compounds with oxygen. The alkali metals and the alkaline earth metals, as well as the transition metals and the posttransition metals (in their lower oxidation states), form ionic oxides—i.e., compounds that contain the O2− anion. Metals with high oxidation states form oxides whose bonds have a more covalent nature. Nonmetals also form covalent oxides, which are usually molecular in character. A smooth variation from ionic to covalent in the type of bonding in oxides is observed as the periodic table is traversed from the metals on the left to the nonmetals on the right. This same variation is observed in the reaction of oxides with water and the resulting acid-base character of the products. Ionic metal oxides react with water to give hydroxides (compounds containing the OH− ion) and resultant basic solutions, whereas most nonmetal oxides react with water to form acids and resultant acidic solutions (see the table).
group 1
group 2
group 13
group 14
group 15
group 16
group 17
Source: From W. Robinson, J. Odom, and H. Holtzclaw, Jr., Chemistry: Concepts and Models, D.C. Heath and Co., 1992.
reaction of oxides with water and the acid-base character of hydroxides
Na2O gives NaOH (strong base)
MgO gives
Mg(OH)2 (weak base)
Al2O3 nonreacting
SiO2 nonreacting
P4O10 gives H3PO4 (weak acid)
SO3 gives H2SO4 (strong acid)
Cl2O7 gives HClO4 (strong acid)
bonding in oxides
Na2O ionic
MgO ionic
Al2O3
ionic
SiO2 covalent
P4O10 covalent
SO3 covalent
Cl2O7 covalent
Certain organic compounds react with oxygen or other oxidizing agents to produce substances called oxides. Thus, amines, phosphines, and sulfides form amine oxides, phosphine oxides, and sulfoxides, respectively, in which the oxygen atom is covalently bonded to the nitrogen, phosphorus, or sulfur atom. The so-called olefin oxides are cyclic ethers.
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