Reacción a "Organic chemists break century-old Bredt's rule"

Hydrocarbons are compounds made up of carbon and hydrogen. An alkane is a saturated hydrocarbon in which each carbon is bonded to four carbon or hydrogen atoms. An alkene is an unsaturated hydrocarbon that has at least one carbon-carbon double bond in its structure. The carbon atoms of the double bond and the two atoms attached to each of them are in the same plane.

Both alkanes and alkenes can form cyclic and bicyclic structures, in the latter case with two fused rings. For bicyclic alkenes, the Bredt rule formulated in 1924 states that molecules cannot have a carbon-carbon double bond at the junction of the two rings of a bicyclic molecule. The presence of a double bond in this position is only possible if the carbon atoms of the double bond and the atoms attached to it deviate significantly from the flat structure preferred by double bonds, thus generating a highly stressed and unstable structure. This tension explains the difficulty of accessing bicyclic structures with double bonds at the junction of the two rings and justifies Bredt's rule.

This article in Science shows how to make molecules that violate Bredt's rule, allowing chemists to find practical ways to make them and use them in reactions. Even so, the anti-Bredt molecules they manage to synthesise are highly reactive and cannot be isolated and characterised, showing that they are highly unstable molecules. However, researchers have been able to demonstrate their existence by reacting them with other molecules. In this sense, one hundred years after its formulation, this work demonstrates that Bredt's rule is not generally applicable and opens a way for the synthesis of highly distorted alkenes that can be very useful in the synthesis of highly complex molecular structures present in certain drugs.