Five Pd/REO (rare earth oxide) compounds (Pd/La2O3, Pd/CeO2, Pd/Pr6O11, Pd/Sm2O3, and Pd/ Gd2O3) have been successfully used as precatalysts in the Suzuki–Miyaura C–C cross-coupling reaction of aryl bromides with arylboronic acids in ethanol/water at r.t. All Pd/ REO showed high activity and selectivity. The effective catalyst arises from palladium leaching from the REO support. We have demonstrated that the activity of each Pd/ REO (the decreasing order is Pd/La2O3>Pd/Pr6O11>Pd/ Gd2O3>Pd/Sm2O3>Pd/CeO2) is strictly related to the corresponding PZC (point of zero charge) value. Accordingly, it can be reasonably argued that the metal is released in solution in the form of Pd2+, and higher is the amount of positive charge on the surface in catalytic conditions, higher is the concentration of Pd2+ ions in solution and faster is the formation of the coupling product. Also the recycling of each Pd/REO is strictly connected with the PZC value of the REO support. As a matter of fact, Pd/ CeO2, which has the lowest PZC value (6.7), shows the best reusability, according to its lower tendency to release Pd2+ ions in solution.

Room-Temperature Suzuki–Miyaura Reaction Catalyzed by Pd Supported on Rare Earth Oxides: Influence of the Point of Zero Charge on the Catalytic Activity

AMOROSO, Francesco;COLUSSI, Sara;DEL ZOTTO, Alessandro;TROVARELLI, Alessandro
2013-01-01

Abstract

Five Pd/REO (rare earth oxide) compounds (Pd/La2O3, Pd/CeO2, Pd/Pr6O11, Pd/Sm2O3, and Pd/ Gd2O3) have been successfully used as precatalysts in the Suzuki–Miyaura C–C cross-coupling reaction of aryl bromides with arylboronic acids in ethanol/water at r.t. All Pd/ REO showed high activity and selectivity. The effective catalyst arises from palladium leaching from the REO support. We have demonstrated that the activity of each Pd/ REO (the decreasing order is Pd/La2O3>Pd/Pr6O11>Pd/ Gd2O3>Pd/Sm2O3>Pd/CeO2) is strictly related to the corresponding PZC (point of zero charge) value. Accordingly, it can be reasonably argued that the metal is released in solution in the form of Pd2+, and higher is the amount of positive charge on the surface in catalytic conditions, higher is the concentration of Pd2+ ions in solution and faster is the formation of the coupling product. Also the recycling of each Pd/REO is strictly connected with the PZC value of the REO support. As a matter of fact, Pd/ CeO2, which has the lowest PZC value (6.7), shows the best reusability, according to its lower tendency to release Pd2+ ions in solution.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11390/890940
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