URJC-1: Stable and Efficient Catalyst for O-Arylation Cross-Coupling
Fecha
2024-06-27
Autores
García-Rojas, Elena
Leo, Pedro
Tapiador, Jesus
Martos, Carmen
Orcajo, Gisela
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MDPI
Resumen
The design of metal–organic frameworks (MOFs) allows the definition of properties for
their final application in small-scale heterogeneous catalysis. Incorporating various catalytic centers
within a single structure can produce a synergistic effect, which is particularly intriguing for crosscoupling reactions. The URJC-1 material exhibits catalytic duality: the metal centers act as Lewis
acid centers, while the nitrogen atoms of the organic ligand must behave as basic centers. The
impact of reaction temperature, catalyst concentration, and basic agent concentration was evaluated.
Several copper-based catalysts, including homogeneous and heterogeneous MOF catalysts with and
without the presence of nitrogen atoms in the organic ligand, were assessed for their catalytic effect
under optimal conditions. Among the catalysts tested, URJC-1 exhibited the highest catalytic activity,
achieving complete conversion of 4-nitrobenzaldehyde with only 3% mol copper concentration in
one hour. Furthermore, URJC-1 maintained its crystalline structure even after five reaction cycles,
demonstrating remarkable stability in the reaction medium. The study also examined the impact of
various substituents of the substrate alcohol on the reaction using URJC-1. The results showed that
the reaction had high activity when activating substituents were present and for most cyclic alcohols
rather than linear ones.
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https://www.mdpi.com/2079-4991/14/13/1103
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