Direct Benzene Hydroxylation with Dioxygen Induced by Copper Complexes: Uncovering the Active Species by DFT Calculations

Borrego, Elena; Tiessler Sala, Laura; Lázaro, Jesús J.; Caballero Bevia, Ana; Pérez Romero, Pedro José; Lledós, Agustí

Author

Borrego, Elena; Tiessler Sala, Laura; Lázaro, Jesús J.; Caballero Bevia, Ana ; Pérez Romero, Pedro José ; [et al.]
Publication Date

2022-07-14
Publisher

America Chemical Society
Citation

Borrego, E., Tiessler-Sala, L., Lázaro, J. J., Caballero, A., Pérez, P. J., & Lledós, A. (2022). Direct Benzene Hydroxylation with Dioxygen Induced by Copper Complexes: Uncovering the Active Species by DFT Calculations. In Organometallics (Vol. 41, Issue 14, pp. 1892–1904). American Chemical Society (ACS). https://doi.org/10.1021/acs.organomet.2c00202
Abstract

The direct oxidation of benzene into phenol using molecular oxygen at very mild temperatures can be promoted in the presence of the copper complex TpBr3Cu(NCMe) in the homogeneous phase in the presence of ascorbic acid as the source of protons and electrons. The stoichiometric nature, relative to copper, of this transformation prompted a thorough DFT study in order to understand the reaction pathway. As a result, the dinuclear species TpBr3CuII(μ-O•)(μ-OH)CuIITpBr3 is proposed as the relevant structure which is responsible for activating the arene C−H bond leading to phenol formation.
URI

https://hdl.handle.net/10272/21356

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Direct Benzene Hydroxylation with Dioxygen Induced by Copper Complexes: Uncovering the Active Species by DFT Calculations

Author

Borrego, Elena; Tiessler Sala, Laura; Lázaro, Jesús J.; Caballero Bevia, Ana UHU Authority

; Pérez Romero, Pedro José UHU Authority

; [et al.]

Publication Date

2022-07-14

Publisher

America Chemical Society

Citation

Borrego, E., Tiessler-Sala, L., Lázaro, J. J., Caballero, A., Pérez, P. J., & Lledós, A. (2022). Direct Benzene Hydroxylation with Dioxygen Induced by Copper Complexes: Uncovering the Active Species by DFT Calculations. In Organometallics (Vol. 41, Issue 14, pp. 1892–1904). American Chemical Society (ACS). https://doi.org/10.1021/acs.organomet.2c00202

Abstract

The direct oxidation of benzene into phenol using molecular oxygen at very mild temperatures can be promoted in the presence of the copper complex TpBr3Cu(NCMe) in the homogeneous phase in the presence of ascorbic acid as the source of protons and electrons. The stoichiometric nature, relative to copper, of this transformation prompted a thorough DFT study in order to understand the reaction pathway. As a result, the dinuclear species TpBr3CuII(μ-O•)(μ-OH)CuIITpBr3 is proposed as the relevant structure which is responsible for activating the arene C−H bond leading to phenol formation.

URI

https://hdl.handle.net/10272/21356

Fichero	Tamaño	Formato	Ver	Description
acs.organomet.2c00202.pdf	7.953Mb	PDF	View/Open	Versión editor

Fichero	Tamaño	Formato	Ver	Description
acs.organomet.2c00202.pdf	7.953Mb	PDF	View/Open	Versión editor