500312-07-2

Upstream product

• 135-19-3 β-naphthol 
• 1005-56-7 phenylcarbonochloridothioate 
• 108-95-2 phenol 

Downstream Products

• 502485-09-8 thiocarbonic acid O,S-di-[2]naphthyl ester 
• 127084-74-6 thiocarbonic acid O,O'-di-[2]naphthyl ester 
• 13509-34-7 diphenylthiocarbonate 
• 93-44-7 2-naphthyl benzoate 
• 82408-29-5 phenyl naphthalene-2-carboxylate 

Relevant academic research and scientific papers

Radical OfC transposition: A metal-free process for conversion of phenols into benzoates and benzamides

We report a metal-free procedure for transformation of phenols into esters and amides of benzoic acids via a new radical cascade. Diaryl thiocarbonates and thiocarbamates, available in a single high-yielding step from phenols, selectively add silyl radicals at the sulfur atom of the CdS moiety. This addition step, analogous to the first step of the Barton-McCombie reaction, produces a carbon radical which undergoes 1,2 OfC transposition through an O-neophyl rearrangement. The usually unfavorable equilibrium in the reversible rearrangement step is shifted forward via a highly exothermic C-S bond scission in the O-centered radical, which furnishes the final benzoic ester or benzamide product. The metal-free preparation of benzoic acid derivatives from phenols provides a potentially useful alternative to metal-catalyzed carbonylation of aryl triflates.

DIRECT CONVERSION OF PHENOLS INTO AMIDES AND ESTERS OF BENZOIC ACID

A method is provided for the preparation of an aromatic carboxylic acid aryl ester or an N-aryl aromatic carboxamide. The method comprises contacting an O,O-diaryl thiocarbonate or an O-aryl-N-aryl thiocarbamate with a reactant that regioselectively reacts with sulfur, which contact causes an O-neophyl rearrangement, thereby forming either the aromatic carboxylic acid aryl ester or the N-aryl aromatic carboxamide, respectively.