•
Mercury(I) chloride disproportionates upon UV-irradiation: :: •
Phosphorous acid disproportionates upon heating to 200°C to give
phosphoric acid and
phosphine: :: • Desymmetrizing reactions are sometimes referred to as disproportionation, as illustrated by the thermal degradation of bicarbonate: :: :The oxidation numbers remain constant in this acid-base reaction. • Another variant on disproportionation is
radical disproportionation, in which two radicals form an alkene and an alkane. ::2CH3-\underset{^\bullet}CH2 -> {H2C=CH2} + H3C-CH3 • Disproportionation of sulfur intermediates by microorganisms is widely observed in sediments. ::{{chem2|4 S^{0} + 4 H2O -> 3 H2S + SO4(2-) + 2 H+}} ::{{chem2|3 S^{0} + 2 FeOOH -> SO4(2-) + 2 FeS + 2 H+}} :: •
Chlorine gas reacts with concentrated
sodium hydroxide to form
sodium chloride,
sodium chlorate and
water. The ionic equation for this reaction is as follows: :: :The chlorine reactant is in
oxidation state 0. In the products, the chlorine in the Cl− ion has an oxidation number of −1, having been reduced, whereas the oxidation number of the chlorine in the ion is +5, indicating that it has been oxidized. • Decomposition of numerous
interhalogen compounds involve disproportionation.
Bromine fluoride undergoes a disproportionation reaction to form
bromine trifluoride and
bromine in non-aqueous media: :: • The dismutation of
superoxide free radical to
hydrogen peroxide and
oxygen, catalysed in living systems by the
enzyme superoxide dismutase: :: :The oxidation state of oxygen is − in the superoxide free radical anion, −1 in hydrogen peroxide and 0 in dioxygen. • In the
Cannizzaro reaction, an
aldehyde is converted into an
alcohol and a
carboxylic acid. In the related
Tishchenko reaction, the
organic redox reaction product is the corresponding
ester. In the
Kornblum–DeLaMare rearrangement, a peroxide is converted to a
ketone and an alcohol. • The disproportionation of
hydrogen peroxide into water and oxygen catalysed by either
potassium iodide or the enzyme
catalase: :: • In the
Boudouard reaction, carbon monoxide disproportionates to carbon and
carbon dioxide. The reaction is for example used in the
HiPco method for producing
carbon nanotubes; high-pressure
carbon monoxide disproportionates when catalysed on the surface of an iron particle: :: •
Nitrogen has oxidation state +4 in
nitrogen dioxide, but when this compound reacts with water, it forms both
nitric acid and
nitrous acid, where nitrogen has oxidation states +5 and +3 respectively: :: • In
hydrazoic acid and
sodium azide, each of the 3 nitrogen atoms of these very energetic linear polyatomic species has an oxidation state of −. These unstable and highly
toxic compounds will disproportionate in
aqueous solution to form gaseous nitrogen () and
ammonium ions, or
ammonia, depending on
pH conditions, as it can be conveniently verified by means of the
Frost diagram for nitrogen: :Under acidic conditions, hydrazoic acid disproportionates as: :: :Under neutral, or basic, conditions, the azide
anion disproportionates as: :: •
Dithionite undergoes acid hydrolysis to
thiosulfate and
bisulfite: :: • Dithionite also undergoes alkaline hydrolysis to
sulfite and
sulfide: :: 3, SiCl4, and SiH2Cl2 are classifiable as Si(II), Si(IV), and Si(0), respectively. --> == Polymer chemistry ==