Metal Doped Core–Shell Metal‐Organic Frameworks@Covalent Organic Frameworks (MOFs@COFs) Hybrids as a Novel Photocatalytic Platform

Metal doped core–shell Metal‐Organic Frameworks@Covalent Organic Frameworks (MOFs@COFs) are presented as a novel platform for photocatalysis. A palladium (Pd) doped MOFs@COFs in the form of Pd/TiATA@LZU1 shows excellent photocatalytic performance for tandem dehydrogenation and hydrogenation reaction...

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Veröffentlicht in:	Advanced functional materials 2018-03, Vol.28 (13), p.n/a
Hauptverfasser:	Sun, Dengrong, Jang, Seungwook, Yim, Se‐Jun, Ye, Lin, Kim, Dong‐Pyo
Format:	Artikel
Sprache:	eng
Schlagworte:	Cascade chemical reactions continuous‐flow microreactors core–shell metal–organic frameworks covalent organic frameworks Dehydrogenation Materials science Metal-organic frameworks Palladium Performance enhancement Photocatalysis
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container_title	Advanced functional materials
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creator	Sun, Dengrong Jang, Seungwook Yim, Se‐Jun Ye, Lin Kim, Dong‐Pyo
description	Metal doped core–shell Metal‐Organic Frameworks@Covalent Organic Frameworks (MOFs@COFs) are presented as a novel platform for photocatalysis. A palladium (Pd) doped MOFs@COFs in the form of Pd/TiATA@LZU1 shows excellent photocatalytic performance for tandem dehydrogenation and hydrogenation reactions in a continuous‐flow microreactor and a batch system, indicating the great potential of the metal doped MOFs@COFs as a multifunctional platform for photocatalysis. Explanations for the performance enhancement are elucidated. An integrated dual‐chamber microreactor coupled with the metal doped MOFs@COFs is introduced to demonstrate a concept of an intensified green photochemical process, which can be broadly extended to challenging liquid–gas tandem and cascade reactions. Pd doped core–shell TiATA@LZU1 is fabricated and shows excellent photocatalytic performance for hydrogenation and dehydrogenation reactions in batch and in a newly designed dual‐chamber microreactor. This indicates a great promise of metal–organic frameworks@covalent organic frameworks (MOFs@COFs) hybrids as a novel platform for efficient photocatalysis.
doi_str_mv	10.1002/adfm.201707110
format	Article
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A palladium (Pd) doped MOFs@COFs in the form of Pd/TiATA@LZU1 shows excellent photocatalytic performance for tandem dehydrogenation and hydrogenation reactions in a continuous‐flow microreactor and a batch system, indicating the great potential of the metal doped MOFs@COFs as a multifunctional platform for photocatalysis. Explanations for the performance enhancement are elucidated. An integrated dual‐chamber microreactor coupled with the metal doped MOFs@COFs is introduced to demonstrate a concept of an intensified green photochemical process, which can be broadly extended to challenging liquid–gas tandem and cascade reactions. Pd doped core–shell TiATA@LZU1 is fabricated and shows excellent photocatalytic performance for hydrogenation and dehydrogenation reactions in batch and in a newly designed dual‐chamber microreactor. 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subjects	Cascade chemical reactions continuous‐flow microreactors core–shell metal–organic frameworks covalent organic frameworks Dehydrogenation Materials science Metal-organic frameworks Palladium Performance enhancement Photocatalysis
title	Metal Doped Core–Shell Metal‐Organic Frameworks@Covalent Organic Frameworks (MOFs@COFs) Hybrids as a Novel Photocatalytic Platform
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