Metal–Organic Charge Transfer Complexes of Pb(TCNQ)2 and Pb(TCNQF4)2 as New Catalysts for Electron Transfer Reactions

Zakir Hussain; Wenyue Zou; Billy J. Murdoch; Ayman Nafady; Matthew R. Field; Rajesh Ramanathan; Vipul Bansal

doi:10.1002/admi.202001111

Advanced Materials Interfaces (Nov 2020)

Metal–Organic Charge Transfer Complexes of Pb(TCNQ)2 and Pb(TCNQF4)2 as New Catalysts for Electron Transfer Reactions

Zakir Hussain,
Wenyue Zou,
Billy J. Murdoch,
Ayman Nafady,
Matthew R. Field,
Rajesh Ramanathan,
Vipul Bansal

Affiliations

Zakir Hussain: Sir Ian Potter NanoBioSensing Facility NanoBiotechnology Research Laboratory (NBRL) School of Science RMIT University Melbourne Victoria 3001 Australia
Wenyue Zou: Sir Ian Potter NanoBioSensing Facility NanoBiotechnology Research Laboratory (NBRL) School of Science RMIT University Melbourne Victoria 3001 Australia
Billy J. Murdoch: RMIT Microscopy & Microanalysis Facility (RMMF) College of Science, Engineering & Health RMIT University Melbourne Victoria 3001 Australia
Ayman Nafady: Chemistry Department College of Science King Saud University Riyadh 11451 Saudi Arabia
Matthew R. Field: RMIT Microscopy & Microanalysis Facility (RMMF) College of Science, Engineering & Health RMIT University Melbourne Victoria 3001 Australia
Rajesh Ramanathan: Sir Ian Potter NanoBioSensing Facility NanoBiotechnology Research Laboratory (NBRL) School of Science RMIT University Melbourne Victoria 3001 Australia
Vipul Bansal: Sir Ian Potter NanoBioSensing Facility NanoBiotechnology Research Laboratory (NBRL) School of Science RMIT University Melbourne Victoria 3001 Australia

DOI: https://doi.org/10.1002/admi.202001111
Journal volume & issue: Vol. 7, no. 21
pp. n/a – n/a

Abstract

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Abstract The fundamental properties and applications of organic charge transfer complexes based on Pb(TCNQ)2 (Pb = lead, TCNQ = 7,7,8,8‐tetracyanoquinodimethane) and its fluorinated derivatives are relatively unknown. Here, a facile solid–liquid approach for the synthesis of Pb(TCNQ)2 and Pb(TCNQF4)2 is reported. These materials are thoroughly analyzed to obtain insights into their unique morphological, vibrational and optical properties, the latter extending across the UV–Vis–IR region. Subsequently, the catalytic potential of these materials is evaluated by employing a model redox reaction, which revealed two orders of magnitude higher catalytic activity of the fluorinated derivative over non‐fluorinated Pb(TCNQ)2 crystals. Overall, the work presented here adds a new member to the growing yet limited library of metal–organic charge transfer complexes and validates the outstanding redox catalysis performance of this group of materials.

Published in Advanced Materials Interfaces

ISSN: 2196-7350 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Science: Physics; Technology
Website: https://onlinelibrary.wiley.com/journal/21967350

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