Grob Fragmentation and Mechanism

Grob Fragmentation and Mechanism

Grob Fragmentation

An elimination reaction that splits a neutral aliphatic chain into three fragments: a positive ion (electrofuge), an unsaturated neutral fragment, and a negative ion (nucleofuge). Positive ion may be carbenium, carbonium, or acylium ions, neutral fragments may be alkene, alkyne, or imine; negative fragments may be tosyl or hydroxyl ions. The reaction is named after the Swiss chemist Cyril A. Grob, who first described it in 1955.

Grob Fragmentation

An electrofuge is a leaving group, which does not retain the bonding pair of electrons from its previous bond with another species.
A nucleofuge is a leaving group, which retains the lone pair from its previous bond with another species.

The reaction can proceed through either a stepwise or concerted mechanism, but the concerted pathway is preferred. For concerted pathway the centers must have anti-periplanar (Stereoelectronic) for donation into antibonding orbitals. Grob fragmentations can be affected by the presence of nucleophiles or bases.

Grob Fragmentation

Mechanism of Grob Fragmentation

Mechanism takes place in the following steps-
1. Formation of a positive ion (electrofuge) at position 1
2. Concerted cleavage of the C-C bond between positions 2 and 3
3. Expulsion of the negative ion (nucleofuge) from the other end of the chain
4. Formation of an unsaturated neutral fragment spanning positions 3 and 4

Grob Fragmentation Mechanism


Grob Fragmentation


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