Selin Duman scite author profile

Cataloged from PDF version of article.The in silico design of tetraradical S 1 states was validated experimentally through synthesis, followed by characterization including phosphorescence measurements, use of trap molecules, and cell culture studies, leading to a series of orthogonal dimers of Bodipy chromophores with remarkable singlet oxygen efficiencies (see picture). A new path for the rational development of efficient photosensitizers is thus revealed. Copyright © 2011 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim

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Heavy Atom Free Singlet Oxygen Generation: Doubly Substituted Configurations Dominate S₁ States of Bis-BODIPYs

Duman

Çakmak²,

Kölemen³

et al. 2012

J. Org. Chem.

123

122

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S(0), S(1), and T(1) states of various orthogonal 8,8' and 8,2'-bis-boradiaza-s-indacene (BODIPY) dyes, recently (Angew. Chem., Int. Ed.2011, 50, 11937) proposed as heavy atom free photosensitizers for O(2)((1)Δ(g)) generation, were studied by multireference quantum chemical approaches. S(0)→S(1) excitation characteristics of certain bis-BODIPYs are shown to be drastically different than the parent BODIPY chromophore. Whereas a simple HOMO→LUMO-type single substitution perfectly accounts for the BODIPY core, S(1) states of certain orthogonal bis-BODIPYs are described as linear combinations of doubly substituted (DS) configurations which overall yield four electrons in four singly occupied orbitals. Computed DS character of S(1), strongly correlated with facile (1)O(2) production, was presumed to occur via S(1)→T(1) intersystem crossing (ISC) of the sensitizer. Further confirmation of this relation was provided by newly synthesized BODIPY derivatives and comparison of spectroscopic properties of their dimers and monomers. Near-IR absorption, desired for potential photodynamic therapy applications, was not pursuable for bis-chromophores by the standard strategy of π-extension, as DS singlet states are destabilized. Decreased exchange coupling in π-extended cases appears to be responsible for this destabilization. Comparisons with iodine incorporated bis-BODIPYs suggest that the dynamics of (1)O(2) generation via DS S(1) states are qualitatively different from that via ISC originating from heavy atom spin-orbit coupling. Although red-shifting the absorption wavelength to enter the therapeutic window does not seem attainable for orthogonal bis-BODIPYs with DS S(1) states, modifications in the chromophore cores are shown to be promising in fine-tuning the excitation characteristics.

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Designing Excited States: Theory‐Guided Access to Efficient Photosensitizers for Photodynamic Action

et al. 2011

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Das rechnergestützte Design tetraradikalischer S1‐Zustände wurde experimentell durch Synthese und anschließende Charakterisierung einschließlich Phosphoreszenzmessungen, Gebrauch von Einfangmolekülen und Zellkultur‐Untersuchungen bestätigt. Dies führte zu einer Reihe orthogonaler Bodipy‐Chromophor‐Dimere mit bemerkenswerten Singulett‐Sauerstoff‐Effizienzen (siehe Bild). Ein neuer Weg für die rationale Entwicklung effizienter Photosensibilisatoren wird somit vorgestellt.

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Luminescence of BODIPY and Dipyrrin: An MCSCF Comparison of Excited States

2013

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Low lying electronic states of the highly fluorescent BODIPY (boron dipyrromethene, 1) and its nonemissive cousin dipyrrin (2) were investigated by state-of-the-art quantum chemical methods. The opposed luminescence of 1 and 2 is explained by discovering distinct structural and energetic features for the intersection of the ground and first excited singlet state potential energy surfaces, S(0) and S(1). In accessing the intersection region, a B-N σ-bond in 1 has to be broken-an energetically prohibitive change on the nonemissive decay channel. On the contrary, 2 is deactivated via an energetically accessible S(0)/S(1) intersection point. Details of S(0), S(1), S(2), and T(1) wave functions for various regions of the potential energy surfaces were described. Unnoted features for multidimensional vectors that represent S(0) → S(1) and S(0) → T(1) transitions are reported. These correlations regarding S(0) → S(1) and S(0) → T(1) multidimensional vectors were also shown to apply to two highly fluorescent molecules: indole and coumarin.

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Selin Duman

Designing Excited States: Theory‐Guided Access to Efficient Photosensitizers for Photodynamic Action

Heavy Atom Free Singlet Oxygen Generation: Doubly Substituted Configurations Dominate S₁ States of Bis-BODIPYs

Designing Excited States: Theory‐Guided Access to Efficient Photosensitizers for Photodynamic Action

Luminescence of BODIPY and Dipyrrin: An MCSCF Comparison of Excited States

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Selin Duman

Designing Excited States: Theory‐Guided Access to Efficient Photosensitizers for Photodynamic Action

Heavy Atom Free Singlet Oxygen Generation: Doubly Substituted Configurations Dominate S1 States of Bis-BODIPYs

Designing Excited States: Theory‐Guided Access to Efficient Photosensitizers for Photodynamic Action

Luminescence of BODIPY and Dipyrrin: An MCSCF Comparison of Excited States

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Heavy Atom Free Singlet Oxygen Generation: Doubly Substituted Configurations Dominate S₁ States of Bis-BODIPYs