Influence of Surface Functionalities on Au/C Catalysts for Oxidative Homocoupling of Phenylboronic Acid

Tanja E. Parmentier; Anna Lazaridou; Joseph Cartwright; Ben Davies; Simon Dawson; Grazia Malta; Simon  Freakley; Thomas E. Davies; David J. Morgan; Simon Kondrat; Christopher J. Kiely; Samuel Pattisson; Nicholas F. Dummer; Graham J. Hutchings

doi:10.1021/acssuschemeng.5c02262

Influence of Surface Functionalities on Au/C Catalysts for Oxidative Homocoupling of Phenylboronic Acid

Tanja E. Parmentier, Anna Lazaridou, Joseph Cartwright, Ben Davies, Simon Dawson, Grazia Malta, Simon Freakley, Thomas E. Davies, David J. Morgan, Simon Kondrat, Christopher J. Kiely, Samuel Pattisson, Nicholas F. Dummer, Graham J. Hutchings

Research output: Contribution to journal › Article › peer-review

Abstract

The formation of C-C bonds through coupling reactions is an important industrial process. The ability of Au to catalyze such reactions has been reported, with both homogeneous and heterogeneous catalyst examples. Previous work has shown that carbon-supported cationic and nanoparticulate Au are active for the homocoupling of phenylboronic acid to biphenyl. However, the stability of supported cationic Au is short-lived, and the formed nanoparticles were suggested to be the active species. Through the synthesis of two types of supported cationic Au catalysts, utilizing either aqua regia or acetone solvents, we show that both catalysts develop nanoparticulate Au species early in the reaction; however, only the aqua regia prepared catalyst is active. We ascribe the activity of the aqua regia prepared Au catalyst to excess Cl and the presence of C-Cl surface species in combination with Au. Carbon treated with aqua regia was inactive; however, when used as a support for Au deposited with acetone or via a sol immobilization method, activity was comparable to the aqua regia prepared catalyst. The role of C-Cl and Au nanoparticles is discussed with respect to their correlation to the biphenyl yield, which is shown to be significant only when the C-Cl species are present on the catalyst.

Original language	English
Journal	ACS Sustainable Chemistry and Engineering
Volume	13
Issue number	25
Early online date	13 Jun 2025
DOIs	https://doi.org/10.1021/acssuschemeng.5c02262
Publication status	E-pub ahead of print - 13 Jun 2025

Keywords

gold
homocoupling
phenylboronic acid
single site catalyst
surface chloride

ASJC Scopus subject areas

General Chemistry
Environmental Chemistry
General Chemical Engineering
Renewable Energy, Sustainability and the Environment

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1021/acssuschemeng.5c02262Licence: CC BY

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Parmentier, T. E., Lazaridou, A., Cartwright, J., Davies, B., Dawson, S., Malta, G., Freakley, S., Davies, T. E., Morgan, D. J., Kondrat, S., Kiely, C. J., Pattisson, S., Dummer, N. F., & Hutchings, G. J. (2025). Influence of Surface Functionalities on Au/C Catalysts for Oxidative Homocoupling of Phenylboronic Acid. ACS Sustainable Chemistry and Engineering, 13(25). Advance online publication. https://doi.org/10.1021/acssuschemeng.5c02262

Parmentier, TE, Lazaridou, A, Cartwright, J, Davies, B, Dawson, S, Malta, G, Freakley, S, Davies, TE, Morgan, DJ, Kondrat, S, Kiely, CJ, Pattisson, S, Dummer, NF & Hutchings, GJ 2025, 'Influence of Surface Functionalities on Au/C Catalysts for Oxidative Homocoupling of Phenylboronic Acid', ACS Sustainable Chemistry and Engineering, vol. 13, no. 25. https://doi.org/10.1021/acssuschemeng.5c02262

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abstract = "The formation of C-C bonds through coupling reactions is an important industrial process. The ability of Au to catalyze such reactions has been reported, with both homogeneous and heterogeneous catalyst examples. Previous work has shown that carbon-supported cationic and nanoparticulate Au are active for the homocoupling of phenylboronic acid to biphenyl. However, the stability of supported cationic Au is short-lived, and the formed nanoparticles were suggested to be the active species. Through the synthesis of two types of supported cationic Au catalysts, utilizing either aqua regia or acetone solvents, we show that both catalysts develop nanoparticulate Au species early in the reaction; however, only the aqua regia prepared catalyst is active. We ascribe the activity of the aqua regia prepared Au catalyst to excess Cl and the presence of C-Cl surface species in combination with Au. Carbon treated with aqua regia was inactive; however, when used as a support for Au deposited with acetone or via a sol immobilization method, activity was comparable to the aqua regia prepared catalyst. The role of C-Cl and Au nanoparticles is discussed with respect to their correlation to the biphenyl yield, which is shown to be significant only when the C-Cl species are present on the catalyst.",

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AU - Cartwright, Joseph

AU - Davies, Ben

AU - Dawson, Simon

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AU - Freakley, Simon

AU - Davies, Thomas E.

AU - Morgan, David J.

AU - Kondrat, Simon

AU - Kiely, Christopher J.

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AU - Hutchings, Graham J.

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N2 - The formation of C-C bonds through coupling reactions is an important industrial process. The ability of Au to catalyze such reactions has been reported, with both homogeneous and heterogeneous catalyst examples. Previous work has shown that carbon-supported cationic and nanoparticulate Au are active for the homocoupling of phenylboronic acid to biphenyl. However, the stability of supported cationic Au is short-lived, and the formed nanoparticles were suggested to be the active species. Through the synthesis of two types of supported cationic Au catalysts, utilizing either aqua regia or acetone solvents, we show that both catalysts develop nanoparticulate Au species early in the reaction; however, only the aqua regia prepared catalyst is active. We ascribe the activity of the aqua regia prepared Au catalyst to excess Cl and the presence of C-Cl surface species in combination with Au. Carbon treated with aqua regia was inactive; however, when used as a support for Au deposited with acetone or via a sol immobilization method, activity was comparable to the aqua regia prepared catalyst. The role of C-Cl and Au nanoparticles is discussed with respect to their correlation to the biphenyl yield, which is shown to be significant only when the C-Cl species are present on the catalyst.

AB - The formation of C-C bonds through coupling reactions is an important industrial process. The ability of Au to catalyze such reactions has been reported, with both homogeneous and heterogeneous catalyst examples. Previous work has shown that carbon-supported cationic and nanoparticulate Au are active for the homocoupling of phenylboronic acid to biphenyl. However, the stability of supported cationic Au is short-lived, and the formed nanoparticles were suggested to be the active species. Through the synthesis of two types of supported cationic Au catalysts, utilizing either aqua regia or acetone solvents, we show that both catalysts develop nanoparticulate Au species early in the reaction; however, only the aqua regia prepared catalyst is active. We ascribe the activity of the aqua regia prepared Au catalyst to excess Cl and the presence of C-Cl surface species in combination with Au. Carbon treated with aqua regia was inactive; however, when used as a support for Au deposited with acetone or via a sol immobilization method, activity was comparable to the aqua regia prepared catalyst. The role of C-Cl and Au nanoparticles is discussed with respect to their correlation to the biphenyl yield, which is shown to be significant only when the C-Cl species are present on the catalyst.

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KW - homocoupling

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KW - single site catalyst

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Influence of Surface Functionalities on Au/C Catalysts for Oxidative Homocoupling of Phenylboronic Acid

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

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