- Source: Cyclobutanone
- Siklobutanol
- Cyclobutanone
- Cyclobutanol
- Ketone
- Homo-Favorskii rearrangement
- Methallyl chloride
- Sodium amide
- C4H6O
- Cyclo(18)carbon
- Methylenecyclopropane
- List of compounds with carbon number 4
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Cyclobutanone is an organic compound with molecular formula (CH2)3CO. It is a four-membered cyclic ketone (cycloalkanone). It is a colorless volatile liquid at room temperature. Since cyclopropanone is highly sensitive, cyclobutanone is the smallest easily handled cyclic ketone.
Preparation
The Russian chemist Nikolai Kischner first prepared cyclobutanone in a low yield from cyclobutanecarboxylic acid. Kischner's process, involving several steps, is cumbersome and inefficient; more efficient, high-yielding syntheses have since been developed.
One strategy involves degradation of five-carbon building blocks. For example, the oxidative decarboxylation of cyclobutanecarboxylic acid was improved by the use of other reagents and methods.
A newer, more efficient preparation of cyclobutanone was found by P. Lipp and R. Köster in which a solution of diazomethane in diethyl ether is reacted with ketene. This reaction is based on a ring expansion of the cyclopropanone intermediate initially formed, wherein molecular nitrogen is split off:
The reaction mechanism was confirmed by a reaction using 14C-labeled diazomethane.
Another synthesis of cyclobutanone involves lithium iodide catalyzed rearrangement of oxaspiropentane, which is formed by epoxidation of the easily accessible methylenecyclopropane:
Cyclobutanone can also be prepared in a two step procedure by dialkylation of 1,3-dithiane with 1-bromo-3-chloropropane followed by deprotection to the ketone with mercuric chloride (HgCl2) and cadmium carbonate (CdCO3).
Cyclobutanones are the intermediates of the homo-Favorskii rearrangement, and can be isolated when nucleophiles are absent, as in the synthesis of kelsoene:
Reactions
At about 350 °C, cyclobutanone decomposes into ethylene and ketene. The activation energy for this [2+2] cycloelimination is 52 kcal/mol. The reverse reaction, the [2+2] cycloaddition of ketene and ethylene, has never been observed.
See also
Other cyclic ketones:
Cyclopropanone
Cyclopentanone
Cyclohexanone