Long-range photoinduced charge separation in tröger bases D/A dyads

• Published in: Journal of photochemistry and photobiology. A, Chemistry. Vol. 389; p. 112159
• Main Authors: Dusso, Diego, Lanza, Priscila A., Montejano, Hernán A., Ramírez, Cristina L., Parise, Alejandro R., Vera, D.Mariano A., Moyano, E. Laura, Chesta, Carlos A.
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 15.02.2020
• Subjects: Charge transfer; Electron donor/acceptor dyad; Giant dipole moment; Photophysics; Tröger´s base; Tröger´s base; Electron donor/acceptor dyad; Charge transfer; Giant dipole moment; Photophysics
• ISSN: 1010-6030; 1873-2666
• DOI: 10.1016/j.jphotochem.2019.112159

•Two novel series of D/A Tröger base (TB) dyads were synthesized and characterized.•All TB dyads show large degrees of charge separation (CT) in their excited states.•Depending of the D/A redox gap, CT can involve one or both N of the TB diazocine ring.•For larger D/A gaps, TB dyads excited state dipole moments riche values ∼24–35 D.•TB diazocine ring can behave as a π bridge. Tröger´s base (and its derivatives) are compounds comprised of two aromatic (or polyaromatic) rings bridged by a diazocine aliphatic cycle. We report herein the photophysical properties of two series of novel Tröger´s bases (TB) asymmetrically substituted by electron donor (D) and electron acceptor (A) substituents. In TB series 3, a carbonitrile group (ACN) lies at the position 2 of the heterocycle, while position 8 is occupied by a series of D with increasing reductant capacity: H (3a), CH3 (3b), OCH3 (3c) or N(CH3)2 (3d). A novel TB series (5a-5d) which comprise the same D, but a 2,2-dicyanovinyl group (A = CHC(CN)2) as electron acceptor, was synthesized and fully characterized. TB absorption (νAmax) and emission energies (νFmax), fluorescence quantum yields (ΦF) and emission lifetimes (τF) were determined in a series of aprotic solvents covering a wide range of medium polarity (ε∼2-38). νFmax, ΦF and τF largely depend on the polarity of the medium and the nature of D/A pair. From the solvatochromic study on νFmax, it is concluded that upon excitation TB´s develop large degrees of charge separation (CT). Photophysically, 3a-3c resembles 4-(N,N-dimethylamino)benzonitrile derivatives showing internal CT state dipole moments (μ1*) of ∼ 15–17 D. For 3d and the entire series 5, CT occurs throughout the diazocine ring giving rise to giant μ1* (> 25 D). This is indeed an unusual result, because it strongly suggests that the aliphatic diazocine ring can couple the D/A redox centers as a π bridge would do.