The design of highly active and structurally well-defined catalysts has become a crucial issue for heterogeneous catalysed reactions while reducing the amount of catalyst employed. Beside conventional synthetic routes, the employment of polynuclear transition metal complexes as catalysts or catalyst precursors has progressively intercepted a growing interest. These well-defined species promise to deliver catalytic systems where a strict control on the nuclearity allows to improve the catalytic performance while reducing the active phase loading. This study describes the development of a highly active and reusable palladium-based catalyst on alumina (Pd8/Al2O3) for Suzuki cross-coupling reactions. An octanuclear tiara-like palladium complex was selected as active phase precursor to give isolated Pd-clusters of ca. 1 nm in size on Al2O3. The catalyst was thoroughly characterised by several complementary techniques to assess its structural and chemical nature. The high specific activity of the catalyst has allowed to carry out the cross-coupling reaction in 30 min using only 0.12 mol % of Pd loading under very mild and green reaction conditions. Screening of various substrates and selectivity tests, combined with recycling and benchmarking experiments, have been used to highlight the great potentialities of this new Pd8/Al2O3 catalyst.This study describes the development of a highly active and reusable palladium-based catalyst on alumina (Pd8/Al2O3) derived from an octanuclear tiara-like palladium complex and exploited for Suzuki coupling reactions. The high specific activity of the catalyst allowed to complete the coupling reaction in 30 min using only 0.12 mol % Pd loading under very mild and green reaction conditions.image

Reduced Tiara‐like Palladium Complex for Suzuki Cross‐Coupling Reactions / Daka, Mario; Montini, Tiziano; Pengo, Paolo; Marussi, Giovanna; Crosera, Matteo; Adami, Gianpiero; Delgado, Juan Jose; Giambastiani, Giuliano; Fertey, Pierre; Fonda, Emiliano; Pasquato, Lucia; Fornasiero, Paolo. - In: CHEMISTRY-A EUROPEAN JOURNAL. - ISSN 0947-6539. - STAMPA. - 29:(2023), pp. e202301740.1-e202301740.10. [10.1002/chem.202301740]

Reduced Tiara‐like Palladium Complex for Suzuki Cross‐Coupling Reactions

Giambastiani, Giuliano
Writing – Review & Editing
;
2023

Abstract

The design of highly active and structurally well-defined catalysts has become a crucial issue for heterogeneous catalysed reactions while reducing the amount of catalyst employed. Beside conventional synthetic routes, the employment of polynuclear transition metal complexes as catalysts or catalyst precursors has progressively intercepted a growing interest. These well-defined species promise to deliver catalytic systems where a strict control on the nuclearity allows to improve the catalytic performance while reducing the active phase loading. This study describes the development of a highly active and reusable palladium-based catalyst on alumina (Pd8/Al2O3) for Suzuki cross-coupling reactions. An octanuclear tiara-like palladium complex was selected as active phase precursor to give isolated Pd-clusters of ca. 1 nm in size on Al2O3. The catalyst was thoroughly characterised by several complementary techniques to assess its structural and chemical nature. The high specific activity of the catalyst has allowed to carry out the cross-coupling reaction in 30 min using only 0.12 mol % of Pd loading under very mild and green reaction conditions. Screening of various substrates and selectivity tests, combined with recycling and benchmarking experiments, have been used to highlight the great potentialities of this new Pd8/Al2O3 catalyst.This study describes the development of a highly active and reusable palladium-based catalyst on alumina (Pd8/Al2O3) derived from an octanuclear tiara-like palladium complex and exploited for Suzuki coupling reactions. The high specific activity of the catalyst allowed to complete the coupling reaction in 30 min using only 0.12 mol % Pd loading under very mild and green reaction conditions.image
2023
29
1
10
Daka, Mario; Montini, Tiziano; Pengo, Paolo; Marussi, Giovanna; Crosera, Matteo; Adami, Gianpiero; Delgado, Juan Jose; Giambastiani, Giuliano; Fertey,...espandi
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/1356693
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