Journal article
Redox state manipulation of a tris(p-tetrazolylphenyl)amine ligand and its Mn2 coordination frameworks
C Hua, JY Ge, F Tuna, D Collison, JL Zuo, DM D'Alessandro
Dalton Transactions | ROYAL SOC CHEMISTRY | Published : 2017
DOI: 10.1039/c6dt04719j
Abstract
In situ spectroelectrochemical experiments coupled with UV/Vis/NIR, EPR, magnetism and fluorescence techniques have enabled insights into the electronic properties of the tris(p-tetrazolylphenyl)amine (H3TTPA) ligand and the new Mn2+ frameworks [Mn3(TTPA)2(MeOH)6]n (1) and [Mn3(TTPA)2(DMF)6]n (2). Oxidation of H3TTPA generated the triarylamine radical which was found to be delocalised throughout the ligand backbone. Solid state Vis/NIR and EPR spectroelectrochemical experiments on the frameworks were used to probe the optical properties of the accessible redox states and their relative stabilities, as well as the charge transfer interactions which were generated upon infiltration of electron..
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Awarded by University of Manchester
Funding Acknowledgements
We gratefully acknowledge support from the Australian Research Council and the EPRSRC UK National Electron Paramagnetic Resonance Service at the University of Manchester. We thank Dr Peter Turner and Mr Ryuichi Murase at the University of Sydney for advice and guidance concerning the crystallography of the structures in this paper.