The reactivity of acyl chlorides towards sodium phosphaethynolate, Na(OCP): a mechanistic case study

Authors :: Riccardo Suter
Hansjörg Grützmacher
Zoltán Benkő
René Verel
Dominikus Heift
Source :: Chemical Science, 7 (9), Chemical science, 2016, Vol.7(9), pp.6125-6131 [Peer Reviewed Journal]
Publication Year :: 2016
Publisher :: Royal Society of Chemistry (RSC), 2016.
Abstract: The reaction of Na(OCP) with mesitoyl chloride delivers an ester functionalized 1,2,4-oxadiphosphole in a clean and P-atom economic way. The reaction mechanism has been elucidated by means of detailed NMR-spectroscopic, kinetic and computational studies. The initially formed acyl phosphaketene undergoes a pseudo-coarctate cyclization with an (OCP)− anion under the loss of carbon monoxide to yield a five-membered ring anion. Subsequently, the nucleophilic attack of the formed heterocyclic anion on a second acyl chloride molecule results in the 1,2,4-oxadiphosphole. The transient acyl phosphaketene is conserved during the reaction in the form of four-membered ring adducts, which act as a reservoir. Consequently, the phosphaethynolate anion has three different functions in these reactions: it acts as a nucleophile, as an en-component in [2 + 2] cycloadditions and as a formal P− transfer reagent.<br />Chemical Science, 7 (9)<br />ISSN:2041-6520<br />ISSN:2041-6539

Subjects :: Reaction mechanism
010405 organic chemistry
Nucleophilic acyl substitution
General Chemistry
chemistry
010402 general chemistry
Ring (chemistry)
01 natural sciences
Medicinal chemistry
0104 chemical sciences
Adduct
chemistry.chemical_compound
Acyl chloride
Nucleophile
Reagent
Organic chemistry
Reactivity (chemistry)

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