Unimolecular Reactivity of [Cu(R)(CF3 )3 ]- Complexes (R=Organyl): Stepwise versus Concerted Mechanism in Copper-Mediated Trifluoromethylation.
Chemistry
; 29(41): e202300725, 2023 Jul 20.
Article
em En
| MEDLINE
| ID: mdl-37139922
ABSTRACT
The cuprate complexes [Cu(R)(CF3 )3 ]- (R=organyl) offer an efficient synthetic access to valuable trifluoromethylation products RCF3 . Here, electrospray-ionization mass spectrometry is used to analyze the formation of these intermediates in solution and probe their fragmentation pathways in the gas phase. Furthermore, the potential energy surfaces of these systems are explored by quantum chemical calculations. Upon collisional activation, the [Cu(R)(CF3 )3 ]- complexes (R=Me, Et, Bu, s Bu, allyl) afford the product ions [Cu(CF3 )3 ]â
- and [Cu(CF3 )2 ]- . The former obviously results from an Râ
loss, whereas the latter originates either from the stepwise release of Râ
and CF3 â
radicals or a concerted reductive elimination of RCF3 . The gas-phase fragmentation experiments as well as the quantum chemical calculations indicate that the preference for the stepwise reaction toward [Cu(CF3 )2 ]- increases with the stability of the formed organyl radical Râ
. This finding suggests that the recombination of Râ
and CF3 â
radicals may possibly contribute to the formation of RCF3 from [Cu(R)(CF3 )3 ]- in synthetic applications. In contrast, the [Cu(R)(CF3 )3 ]- complexes (R=aryl) only yield [Cu(CF3 )2 ]- when subjected to collision-induced dissociation. These species exclusively undergo a concerted reductive elimination because the competing stepwise pathway is disfavored by the low stability of aryl radicals.
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01-internacional
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MEDLINE
Idioma:
En
Revista:
Chemistry
Ano de publicação:
2023
Tipo de documento:
Article