Radical defects modulate the photocatalytic response in 2D-graphitic carbon nitride.

Catalytic materials; Catalytic properties; Defect state; Graphitic carbon nitrides; Metal free; Nitride surface; Photo-catalytic; Postsynthetic modification; Structural defect; Thermally induced; Chemistry (all); General Chemistry

Abstract :

[en] Graphitic carbon nitride (gCN) is an important heterogeneous metal-free catalytic material. Thermally induced post-synthetic modifications, such as amorphization and/or reduction, were recently used to enhance the photocatalytic response of these materials for certain classes of organic transformations, with structural defects possibly playing an important role. The knowledge of how these surface modifications modulate the photocatalytic response of gCN is therefore not only interesting from a fundamental point of view, but also necessary for the development and/or tuning of metal-free gCN systems with superior photo-catalytic properties. Herein, employing density functional theory calculations and combining both the periodic and molecular approaches, in conjunction with experimental EPR measurements, we demonstrate that different structural defects on the gCN surface generate distinctive radical defect states localized within the electronic bandgap, with only those correlated with amorphous and reduced gCN structures being photo-active. To this end, we (i) model defective gCN surfaces containing radical defect states; (ii) assess the interactions of these defects with the radical precursors involved in the photo-driven alkylation of electron-rich aromatic compounds (namely perfluoroalkyl iodides); and (iii) describe the photo-chemical processes triggering the initial step of that reaction at the gCN surface. We provide a coherent structure/photo-catalytic property relationship on defective gCN surfaces, elaborating how only specific defect types act as binding sites for the perfluoroalkyl iodide reagent and can favor a photo-induced charge transfer from the gCN surface to the molecule, thus triggering the perfluoroalkylation reaction.

Disciplines :

Chemistry

Author, co-author :

Raciti, Edoardo ^✱; Université de Mons - UMONS > Faculté des Sciences > Service de Chimie des matériaux nouveaux ; Department of Chemical and Pharmaceutical Sciences, INSTM, University of Trieste Via L. Giorgieri 1 Trieste 34127 Italy

Gali, Sai Manoj ; Laboratory for Chemistry of Novel Materials, Materials Research Institute, University of Mons Place du Parc 20 Mons 7000 Belgium david.beljonne@umons.ac.be roberto.lazzaroni@umons.ac.be

Melchionna, Michele ; Department of Chemical and Pharmaceutical Sciences, INSTM, University of Trieste Via L. Giorgieri 1 Trieste 34127 Italy

Filippini, Giacomo ; Department of Chemical and Pharmaceutical Sciences, INSTM, University of Trieste Via L. Giorgieri 1 Trieste 34127 Italy

Actis, Arianna; Department of Chemistry, University of Torino, NIS Centre of Excellence Via Giuria 9 Torino 10125 Italy

Chiesa, Mario ; Department of Chemistry, University of Torino, NIS Centre of Excellence Via Giuria 9 Torino 10125 Italy

Bevilacqua, Manuela; Institute of Chemistry of OrganoMetallic Compounds (ICCOM-CNR) via Madonna del Piano 10 Sesto Fiorentino 50019 Italy ; Center for Energy, Environment and Transport Giacomo Ciamician and ICCOM-CNR Trieste Research Unit, University of Trieste via L. Giorgieri 1 I-34127 Trieste Italy

Fornasiero, Paolo ; Department of Chemical and Pharmaceutical Sciences, INSTM, University of Trieste Via L. Giorgieri 1 Trieste 34127 Italy ; Center for Energy, Environment and Transport Giacomo Ciamician and ICCOM-CNR Trieste Research Unit, University of Trieste via L. Giorgieri 1 I-34127 Trieste Italy

Prato, Maurizio ; Department of Chemical and Pharmaceutical Sciences, INSTM, University of Trieste Via L. Giorgieri 1 Trieste 34127 Italy ; Center for Cooperative Research in Biomaterials (CIC biomaGUNE), Basque Research and Technology Alliance (BRTA) Paseo de Miramón 182 Donostia San Sebastián 20014 Spain ; Basque Foundation for Science, Ikerbasque Bilbao 48013 Spain

Beljonne, David ; Université de Mons - UMONS > Faculté des Sciences > Service de Chimie des matériaux nouveaux

Lazzaroni, Roberto ^✱; Université de Mons - UMONS > Faculté des Sciences > Service de Chimie des matériaux nouveaux

^✱ These authors have contributed equally to this work.

Language :

English

Title :

Radical defects modulate the photocatalytic response in 2D-graphitic carbon nitride.

Publication date :

31 August 2022

Journal title :

Chemical Science

ISSN :

2041-6520

eISSN :

2041-6539

Publisher :

Royal Society of Chemistry, England

Volume :

Issue :

Pages :

9927 - 9939

Peer reviewed :

Peer Reviewed verified by ORBi

Development Goals :

7. Affordable and clean energy

Additional URL :

http://pubs.rsc.org/en/content/articlepdf/2022/SC/D2SC03964H

Research unit :

S817 - Chimie des matériaux nouveaux

Research institute :

Matériaux
Complexys

Funders :

Fonds De La Recherche Scientifique – FNRS
University of Trieste
Ministero dell’Istruzione, dell’Università e della Ricerca
Spanish State Research Agency

Funding text :

This work was supported by the Energy Transition Fund of the Belgian Federal Government (FPS Economy) within the T-REX project, the Belgian National Fund for Scientific Research (FRS-FNRS) within the Consortium des Équipements de Calcul Intensif – CÉCI, under Grant 2.5020.11, and by the Walloon Region (ZENOBE Tier-1 supercomputer, under grant 1117545). E. R. is grateful to the University of Trieste and the University of Mons for a joint doctoral fellowship. M. M. and G. F. kindly acknowledge FRA2021 funded by the University of Trieste. G. F. also acknowledges Microgrants 2021 funded by Region FVG (LR 2/2011, ART. 4). This work was supported by the University of Trieste, INSTM, and the Italian Ministry of Education MIUR (cofin Prot. 2017PBXPN4). Part of this work was performed under the Maria de Maeztu Units of Excellence Program from the Spanish State Research Agency Grant No. MDM-2017-0720. We acknowledge Prof. E. Salvadori for useful discussions on the EPR results and Dr G. Londi for his assistance in the attachment/detachment density analysis. D. B. is Research Director of FNRS. M. P. is the AXA Chair for Bionanotechnology (2016–2023).This work was supported by the Energy Transition Fund of the Belgian Federal Government (FPS Economy) within the T-REX project, the Belgian National Fund for Scientific Research (FRS-FNRS) within the Consortium des Équipements de Calcul Intensif - CÉCI, under Grant 2.5020.11, and by the Walloon Region (ZENOBE Tier-1 supercomputer, under grant 1117545). E. R. is grateful to the University of Trieste and the University of Mons for a joint doctoral fellowship. M. M. and G. F. kindly acknowledge FRA2021 funded by the University of Trieste. G. F. also acknowledges Microgrants 2021 funded by Region FVG (LR 2/2011, ART. 4). This work was supported by the University of Trieste, INSTM, and the Italian Ministry of Education MIUR (cofin Prot. 2017PBXPN4). Part of this work was performed under the Maria de Maeztu Units of Excellence Program from the Spanish State Research Agency Grant No. MDM-2017-0720. We acknowledge Prof. E. Salvadori for useful discussions on the EPR results and Dr G. Londi for his assistance in the attachment/detachment density analysis. D. B. is Research Director of FNRS. M. P. is the AXA Chair for Bionanotechnology (2016-2023).

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since 30 December 2022

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