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Decarbonylative Issues Involved in Ru(II)‐Catalyzed [6+2−1] Annulation Reaction of Hydroxychromone with Alkyne: A DFT Study
Author(s) -
Ling Baoping,
Wang Jiarong,
Liu Yuxia,
Jiang YuanYe,
Liu Peng,
Feng Jin,
Bi Siwei
Publication year - 2021
Publication title -
european journal of organic chemistry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.825
H-Index - 155
eISSN - 1099-0690
pISSN - 1434-193X
DOI - 10.1002/ejoc.202001270
Subject(s) - decarbonylation , chemistry , annulation , alkyne , catalysis , medicinal chemistry , catalytic cycle , migratory insertion , ruthenium , oxidative addition , photochemistry , stereochemistry , organic chemistry
Abstract Density functional theory calculations have been performed to explore the Ru‐catalyzed decarbonylative annulation reaction of 3‐hydroxy‐2‐phenyl‐chromone with an alkyne to synthesize spiroindenebenzofuranones. A Ru(II)−Ru(0)−Ru(II) rather than a Ru(II)−Ru(IV)−Ru(II) transformation was found involved in the decarbonylation process, which is responsible for the sequence of alkyne insertion/decarbonylation. Oxidative addition of C(carbonyl)−C(carbonyl) bond to Ru(0) and the Ru(II)−C(sp 2 ) bond formation were confirmed to be favorable for the decarbonylation, meanwhile oxidative addition of C(carbonyl)−C(carbonyl) bond to Ru(0) is likely to be the rate‐determining step for the entire catalytic cycle. It is predicted that the regeneration of the catalyst was achieved by the oxidation of air oxygen in the absence of other oxidants. The current theoretical study provides new insights into the decarbonylative annulation.