Journal article
Exploiting stable radical states for multifunctional properties in triarylamine-based porous organic polymers
C Hua, A Rawal, TB Faust, PD Southon, R Babarao, JM Hook, DM D'Alessandro
Journal of Materials Chemistry A | ROYAL SOC CHEMISTRY | Published : 2014
DOI: 10.1039/c4ta01925c
Abstract
Redox-active porous organic polymers (POPs) have enormous potential in applications ranging from electrocatalysis to solar energy conversion. Exploiting the different electronic states offers exciting prospects for controlling host-guest chemistry, however, this aspect of multifunctionality has to date, remained largely unexplored. Here, we present a strategy for the development of multifunctional materials with industrially sought-after properties. A series of hydrophobic POPs containing redox-active triarylamines linked by ethynyl (POP-1), 1,4-diethynylphenyl (POP-2) and 4,4′- diethynylbiphenyl (POP-3) bridges have been synthesised and characterised by NMR and EPR spectroscopy, as well as ..
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Funding Acknowledgements
We gratefully acknowledge support from the Australian Research Council and the Science and Industry Endowment Fund. We also thank Professor Mike Davies (Heart Research Institute, The University of Sydney) for the provision of EPR spectrometer access and Professor David Collison (The University of Manchester) for helpful discussions.