New Triazaborine Chromophores: Their Synthesis via Oxazaborines and Electrochemical and DFT Study of Their Fundamental Properties

New Triazaborine Chromophores: Their Synthesis via Oxazaborines and Electrochemical and DFT Study of Their Fundamental Properties

Eight new and stable triazaborine chromophores featuring various substituents as donor and acceptor moieties were prepared and investigated. An interpretation of the measured electrochemical data (CV, RDV, and dc polarography) and UV−vis spectra and quantum chemical calculations are presented. In th...

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Veröffentlicht in:Organometallics 2014-09, Vol.33 (18), p.4931-4939
Hauptverfasser: Josefík, František, Mikysek, Tomáš, Svobodová, Markéta, Šimůnek, Petr, Kvapilová, Hana, Ludvík, Jiří
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container_end_page 4939
container_issue 18
container_start_page 4931
container_title Organometallics
container_volume 33
creator Josefík, František
Mikysek, Tomáš
Svobodová, Markéta
Šimůnek, Petr
Kvapilová, Hana
Ludvík, Jiří
description Eight new and stable triazaborine chromophores featuring various substituents as donor and acceptor moieties were prepared and investigated. An interpretation of the measured electrochemical data (CV, RDV, and dc polarography) and UV−vis spectra and quantum chemical calculations are presented. In the homologous series the first reduction proceeds as a one-electron reversible process localized at the −NC–CN– part of the central heterocycle being in conjugation with the attached carbonyl. The first oxidation of triazaborines proceeds as a two-electron irreversible process, most probably of the ECE type, localized at the negatively charged boron atom and surrounding unsaturated structures, including the substituted phenyl ring. For a better understanding of the relationship between the structure and redox properties, the LFER approach was applied for the first oxidation as well as reduction potential using the Hammett σ (para) substituent constants. The energies of the longest-wavelength absorption bands taken from UV–vis spectra were compared with the experimentally found differences E ox – E red and with calculated HOMO–LUMO gaps, and no systematic influence of substitution was found. The calculated optimized structures and displacement of the frontier orbitals confirmed the interpretations presented above.
doi_str_mv 10.1021/om500219g
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title New Triazaborine Chromophores: Their Synthesis via Oxazaborines and Electrochemical and DFT Study of Their Fundamental Properties
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