Copper peroxide is an inorganic compound with the chemical formula . The 1:2 ratio of copper and oxygen would be consistent with copper in its common +2 oxidation state and a peroxide group. has attracted interest from a computational perspective. One highly cited analysis concludes that gaseous is a superoxide, with copper in a +1 oxidation state: .
Older literature claims that treatment of cold suspended Cu(OH)<sub>2</sub> with H<sub>2</sub>O<sub>2</sub> creates a brown hydrate of "copper dioxide," which rapidly decomposes in the presence of water to form ill-defined green and yellow salts above 0 ðC.
Species claimed to be "copper peroxide" have been claimed, e.g., by the reaction of cold solutions of Schweizer's reagentâÂÂa source of copper(II)âÂÂand hydrogen peroxide. The Schweizer's reagent used must not contain excess ammonia.
It was once claimed to result from the very slow reaction of finely divided cupric oxide with cold hydrogen peroxide.
It has been claimed that brown "copper dioxide" synthesized from Cu(OH)<sub>2</sub> can be dried above 100 ðC without decomposition if the product is thoroughly rid of moisture via alcohol washings. The resulting product is claimed to be a copper peroxide hydrate.
Several well-characterized molecular copper peroxide complexes have been reported, but these species always feature supporting organic ligands.
Several substances claimed to be inorganic copper(II) peroxides have been reported, with empirical formulae: