The compound was first prepared by Leonidas Zervas in the early 1930s who used it for the introduction of the benzyloxycarbonyl protecting group, which became the basis of the Bergmann-Zervas carboxybenzyl method of peptide synthesis he developed with Max Bergmann.[1][2] This was the first successful method of controlled peptide chemical synthesis and for twenty years it was the dominant procedure used worldwide until the 1950s.[1] To this day, benzyl chloroformate is often used for amine group protection.
The compound is prepared in the lab by treating benzyl alcohol with phosgene:
- PhCH2OH + COCl2 → PhCH2OC(O)Cl + HCl
enzyl chloroformate is commonly used in organic synthesis for the introduction of the benzyloxycarbonyl (formerly called carboxybenzyl) protecting group for amines. The protecting group is abbreviated Cbz or Z (in honor of discoverer Zervas), hence the alternative shorthand designation for benzyl chloroformate as Cbz-Cl or Z-Cl.
Benzyloxycarbonyl is a key protecting group for amines, suppressing the nucleophilic and basic properties of the N lone pair. This "reactivity masking" property, along with the ability to prevent racemization of Z-protected amines, made the Z group the basis of the Begmann-Zervas synthesis of oligopeptides (1932) where the following general reaction is performed to protect the N-terminus of a serially growing oligopeptide chain:[1][2]
Hydrogenolysis in the presence of a variety of palladium-based catalysts is the usual method for deprotection.[1][7] Palladium on charcoal is typical.[8]
Alternatively, HBr and strong Lewis acids have been used, provided that a trap is provided for the released benzyl carbocation.[9]
When the protected amine is treated by either of the above methods (i.e. by catalytic hydrogenation or acidic workup), it yields a terminal carbamic acid which then readily decarboxylates to give the free amine.
