Unveiling the Local Structure of Palladium Loaded into Imine‐Linked Layered Covalent Organic Frameworks for Cross‐Coupling Catalysis

Layered covalent organic frameworks (2D‐COFs), composed of reversible imine linkages and accessible pores, offer versatility for chemical modifications towards the development of catalytic materials. Nitrogen‐enriched COFs are good candidates for binding Pd species. Understanding the local structure...

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Veröffentlicht in:	Angewandte Chemie 2020-07, Vol.132 (31), p.13113-13120
Hauptverfasser:	Romero‐Muñiz, Ignacio, Mavrandonakis, Andreas, Albacete, Pablo, Vega, Alicia, Briois, Valérie, Zamora, Félix, Platero‐Prats, Ana E.
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Sprache:	eng
Schlagworte:	Atomic structure Catalysis Chemical reactions Chemistry Computer applications Cross coupling cross-coupling catalysis Defects DFT modeling layered covalent organic frameworks Nitrogen enrichment pair distribution function Palladium Pores
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creator	Romero‐Muñiz, Ignacio Mavrandonakis, Andreas Albacete, Pablo Vega, Alicia Briois, Valérie Zamora, Félix Platero‐Prats, Ana E.
description	Layered covalent organic frameworks (2D‐COFs), composed of reversible imine linkages and accessible pores, offer versatility for chemical modifications towards the development of catalytic materials. Nitrogen‐enriched COFs are good candidates for binding Pd species. Understanding the local structure of reacting Pd sites bonded to the COF pores is key to rationalize interactions between active sites and porous surfaces. By combining advanced synchrotron characterization methods with periodic computational DFT modeling, the precise atomic structure of catalytic Pd sites attached to local defects is resolved within an archetypical imine‐linked 2D‐COF. This material was synthesized using an in situ method as a gel, under which imine hydrolysis and metalation reactions are coupled. Local defects formed in situ within imine‐linked 2D‐COF materials are highly reactive towards Pd metalation, resulting in active materials for Suzuki–Miyaura cross‐coupling reactions. Zooming into catalytic defects: By combining advanced synchrotron characterization tools and modeling, a more realistic picture is provided of the structure of catalytic palladium loaded into imine‐linked layered covalent organic frameworks. The occurrence of local defects plays a key role in both chemical modifications through metalation and catalytic activity in Suzuki–Miyaura cross‐couplings.
doi_str_mv	10.1002/ange.202004197
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Nitrogen‐enriched COFs are good candidates for binding Pd species. Understanding the local structure of reacting Pd sites bonded to the COF pores is key to rationalize interactions between active sites and porous surfaces. By combining advanced synchrotron characterization methods with periodic computational DFT modeling, the precise atomic structure of catalytic Pd sites attached to local defects is resolved within an archetypical imine‐linked 2D‐COF. This material was synthesized using an in situ method as a gel, under which imine hydrolysis and metalation reactions are coupled. Local defects formed in situ within imine‐linked 2D‐COF materials are highly reactive towards Pd metalation, resulting in active materials for Suzuki–Miyaura cross‐coupling reactions. Zooming into catalytic defects: By combining advanced synchrotron characterization tools and modeling, a more realistic picture is provided of the structure of catalytic palladium loaded into imine‐linked layered covalent organic frameworks. 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Zooming into catalytic defects: By combining advanced synchrotron characterization tools and modeling, a more realistic picture is provided of the structure of catalytic palladium loaded into imine‐linked layered covalent organic frameworks. 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subjects	Atomic structure Catalysis Chemical reactions Chemistry Computer applications Cross coupling cross-coupling catalysis Defects DFT modeling layered covalent organic frameworks Nitrogen enrichment pair distribution function Palladium Pores
title	Unveiling the Local Structure of Palladium Loaded into Imine‐Linked Layered Covalent Organic Frameworks for Cross‐Coupling Catalysis
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