Hypothetical chemical compound

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A hypothetical chemical compound is a chemical compound that has been conceived of, but is not known to have been synthesized, observed, or isolated (identified or shown to exist).^{[citation needed]}

Some hypothetical compounds cannot form at all, due to steric effects (e.g. tetra-tert-butylmethane, C(C(CH₃)₃)₄, chlorine heptafluoride, ClF₇, or bromine heptafluoride, BrF₇) or bond stress (e.g. tetrahedrane C₄H₄). Others might turn out to be highly unstable, decomposing, isomerizing, polymerizing, rearranging, or disproportionating. Some are thought to exist only briefly as reactive intermediates or in vacuum. Some have no known pathway for synthesis (e.g. hypercubane).

Some compounds of radioactive elements have never been synthesized due to their radioactive decay and short half-lives (e.g. francium hydroxide FrOH, radon hexafluoride RnF₆, astatine heptafluoride AtF₇, polonium(II) fluoride PoF₂).

Some "parent compounds" have not been or cannot be isolated, even though stable structural analogs with substituents have been discovered or synthesized (e.g. borole C₄H₄BH). Hypothetical compounds are often predicted or expected from known compounds, such as a families of salts for which the "parent acid" is not a stable molecule, or in which salts form with some cations but not others. Examples of such "phantom acids" are disulfurous acid HO−S(=O)−S(=O)₂−OH and sulfurous acid O=S(−OH)₂, whose salts are stable.

Hypothetical compounds are used in some thought experiments.

Some compounds long regarded as hypothetical have later been isolated. Ethylene dione was suggested in 1913 and observed spectroscopically in 2015.^[1] Another stable compound, potassium trichromate, has been produced in a small scale and is known to be a very powerful oxidising agent. Sodium trichromate and sodium and potassium tetrachromate have been hypothesized but are yet to be synthesized.

Other compounds were once thought to have already been produced, but are now regarded as hypothetical chemical compounds unlikely to ever be produced, such as polywater, oxygen tetrafluoride OF₄, chromium hexafluoride CrF₆ and osmium octafluoride OsF₈.

Other examples of hypothetical compounds are xenon octafluoride XeF₈, pentazole N₅H (all nitrogen analog of azole), hexazine N₆ (all nitrogen analog of benzene), octaazacubane N₈ (all nitrogen analog of cubane), cyclotrioxidane O₃, nitrogen pentafluoride NF₅, tetrafluoroammonium fluoride [NF₄]⁺F⁻.

Despite the fact that rhenium heptahydride ReH₇ has not been isolated, its salt potassium nonahydridorhenate(VII) is stable.