Abstract

NMR chemical shift calculations in combination with geometry optimizations both based on density functional theory were used to identify and to describe dimesitylketone O-oxide ( 6), which is the first carbonyl oxide that could be generated in solution at − 78°C and investigated by NMR spectroscopy. The conformation of carbonyl oxide 6 is characterized by two orthogonal mesityl rings and a close O,H contact between one of the H atoms of the mesityl methyl groups and the terminal O atom of the carbonyl oxide. The calculated geometry and conformation of 6 are verified by the agreement of calculated and measured NMR chemical shifts. The unusual rearrangement of 6 to an alcohol is explained.

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