- IO− 2.
Within the ion, the
iodine exists in the
oxidation state of +3.
Iodites (including
iodous acid) are
highly unstable and have been
observed but...
- been isolated. A few
salts of
bromous acid, bromites, are known, but no
iodites. Egon Wiberg,
Arnold Frederick Holleman (2001)
Inorganic Chemistry, Elsevier...
- acid is the
chemical compound with the
formula HIO2. Its
salts are
named iodites;
these are
exceedingly unstable and have been
observed but
never isolated...
- to give
iodide and iodate: 3 IO− ⇌ 2 I− + IO− 3 K = 1020
Iodous acid and
iodite are even less
stable and
exist only as a
fleeting intermediate in the oxidation...
-
bromite bromate perbromate Br− BrO− BrO− 2 BrO− 3 BrO− 4
iodide hypoiodite iodite iodate periodate I− IO− IO− 2 IO− 3 IO− 4 or IO5− 6
sulfide hyposulfite...
- 7783-95-1 AgI
silver iodide 7783-96-2 AgIO
silver hypoiodite AgIO2
silver iodite AgIO3
silver iodate 7783-97-3 AgIO4
silver periodate AgMnO4
silver permanganate...
-
Iodine oxidation state −1 +1 +3 +5 +7 Name
iodide hypoiodite iodite iodate periodate Formula I− IO− IO− 2 IO− 3 IO− 4 or IO5− 6...
- even explosively, upon heating. A few
bromites have been isolated, but no
iodites have. Holleman, A. F.; Wiberg, Egon; Wiberg, Nils (2001).
Inorganic Chemistry...
-
Iodine oxidation state −1 +1 +3 +5 +7 Name
iodide hypoiodite iodite iodate periodate Formula I− IO− IO− 2 IO− 3 IO− 4 or IO5− 6 Structure...
-
disproportionate immediately to give
iodide and iodate:
Iodous acid and
iodite are even less
stable and
exist only as a
fleeting intermediate in the oxidation...