Resum
Aggregation between discrete molecules is an essential factor to prevent aggregationcaused quenching (ACQ). Indeed, functional groups capable of generating strong hydrogen bonds are likely to assemble and cause ACQ and photoinduced electron transfer processes. Thus, it is possible to compare absorption and emission properties by incorporating two ligands with a different bias toward intra-and intermolecular interactions that can induce a specific structural arrangement. In parallel, the π electron-donor or electron-withdrawing character of the functional groups could modify the Highest Ocuppied Molecular Orbital (HOMO)–Lowest Unocuppied Molecular Orbital (LUMO) energy gap. Reactions of M(OAc)2·2H2O (M = Zn(II) and Cd(II); OAc = acetate) with 1,3benzodioxole-5-carboxylic acid (Piperonylic acid, HPip) and 4-acetylpyridine (4-Acpy) or isonicotinamide (Isn) resulted in the formation of four complexes. The elucidation of their crystal structure showed the formation of one paddle-wheel [Zn(μ-Pip)2(4-Acpy)]2 (1); a mixture of one dimer and two monomers [Zn(µ-Pip)(Pip)(Isn)2]2·2[Zn(Pip)2(HPip)(Isn)]·2MeOH (2); and two dimers [Cd(μPip)(Pip)(4-Acpy)2]2 (3) and [Cd(μ-Pip)(Pip)(Isn)2]2·MeOH (4). They exhibit bridged (1, µ2-η1:η1), bridged, chelated and monodentated (2, µ2-η1:η1, µ1-η1:η1 and µ1-η1), or simultaneously bridged and chelated (3 and 4, µ2-η2:η1) coordination modes. Zn(II) centers accommodate coordination numbers 5 and 6, whereas Cd(II) presents coordination number 7. We have related their photophysical properties and fluorescence quantum yields with their geometric variations and interactions supported by TD-DFT calculations.
Idioma original | Anglès |
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Número d’article | 1365 |
Revista | Molecules |
Volum | 27 |
Número | 4 |
DOIs | |
Estat de la publicació | Publicada - 17 de febr. 2022 |
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CCDC 2124894: Experimental Crystal Structure Determination
Sánchez-Férez, F. (Creador), Rius-Bartra, J. M. (Col·laborador), Ayllón, J. A. (Col·laborador), Calvet, T. (Col·laborador), Font-Bardia, M. (Col·laborador) & Pons, J. (Col·laborador), Cambridge Crystallographic Data Centre, 29 de nov. 2021
DOI: 10.5517/ccdc.csd.cc29b3zr, http://www.ccdc.cam.ac.uk/services/structure_request?id=doi:10.5517/ccdc.csd.cc29b3zr&sid=DataCite
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CCDC 2124893: Experimental Crystal Structure Determination
Sánchez-Férez, F. (Creador), Rius-Bartra, J. M. (Col·laborador), Ayllón, J. A. (Col·laborador), Calvet, T. (Col·laborador), Font-Bardia, M. (Col·laborador) & Pons, J. (Col·laborador), Cambridge Crystallographic Data Centre, 29 de nov. 2021
DOI: 10.5517/ccdc.csd.cc29b3yq, http://www.ccdc.cam.ac.uk/services/structure_request?id=doi:10.5517/ccdc.csd.cc29b3yq&sid=DataCite
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CCDC 2124892: Experimental Crystal Structure Determination
Sánchez-Férez, F. (Creador), Rius-Bartra, J. M. (Col·laborador), Ayllón, J. A. (Col·laborador), Calvet, T. (Col·laborador), Font-Bardia, M. (Col·laborador) & Pons, J. (Col·laborador), Cambridge Crystallographic Data Centre, 29 de nov. 2021
DOI: 10.5517/ccdc.csd.cc29b3xp, http://www.ccdc.cam.ac.uk/services/structure_request?id=doi:10.5517/ccdc.csd.cc29b3xp&sid=DataCite
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