Preferred Label : oxidation state;
IUPAC definition : a measure of the degree of oxidation of an atom in a substance. it is defined as the
charge an atom might be imagined to have when electrons are counted according to an
agreed-upon set of rules: (l) the oxidation state of a free element (uncombined element)
is zero; (2) for a simple (monatomic) ion, the oxidation state is equal to the net
charge on the ion; (3) hydrogen has an oxidation state of 1 and oxygen has an oxidation
state of -2 when they are present in most compounds. (exceptions to this are that
hydrogen has an oxidation state of -1 in hydrides of active metals, e.g.
li h , and oxygen has an oxidation state of -1 in peroxides, e.g.
h 2 o 2 ; (4) the algebraic sum of oxidation states of all
atoms in a neutral molecule must be zero, while in ions the algebraic sum of the oxidation
states of the constituent atoms must be equal to the charge on the ion. for example,
the oxidation states of sulfur in h 2 s , s
8 (elementary sulfur), s o 2 , s
o 3 , and h 2 s o 4 are, respectively:
-2, 0, 4, 6 and 6. the higher the oxidation state of a given atom, the greater
is its degree of oxidation; the lower the oxidation state, the greater is its degree
of reduction.;
Origin ID : O04365;
Automatic exact mappings (from CISMeF team)
- See also
- See also inter- (CISMeF)
a measure of the degree of oxidation of an atom in a substance. it is defined as the
charge an atom might be imagined to have when electrons are counted according to an
agreed-upon set of rules: (l) the oxidation state of a free element (uncombined element)
is zero; (2) for a simple (monatomic) ion, the oxidation state is equal to the net
charge on the ion; (3) hydrogen has an oxidation state of 1 and oxygen has an oxidation
state of -2 when they are present in most compounds. (exceptions to this are that
hydrogen has an oxidation state of -1 in hydrides of active metals, e.g.
li h , and oxygen has an oxidation state of -1 in peroxides, e.g.
h 2 o 2 ; (4) the algebraic sum of oxidation states of all
atoms in a neutral molecule must be zero, while in ions the algebraic sum of the oxidation
states of the constituent atoms must be equal to the charge on the ion. for example,
the oxidation states of sulfur in h 2 s , s
8 (elementary sulfur), s o 2 , s
o 3 , and h 2 s o 4 are, respectively:
-2, 0, 4, 6 and 6. the higher the oxidation state of a given atom, the greater
is its degree of oxidation; the lower the oxidation state, the greater is its degree
of reduction.
