4.6 Article

Two π-Electrons Make the Difference: From BODIPY to BODIIM Switchable Fluorescent Dyes

Journal

CHEMISTRY-A EUROPEAN JOURNAL
Volume 26, Issue 6, Pages 1422-1428

Publisher

WILEY-V C H VERLAG GMBH
DOI: 10.1002/chem.201905344

Keywords

bisimidazoles; BODIIM; BODIPY; fluorescent dyes; switchable fluorescence

Funding

  1. Fonds der Chemischen Industrie (FCI)
  2. Deutsche Forschungsgemeinschaft (DFG) [FR3329/3-1, FR3329/5-1, SFB840]
  3. TU Berlin
  4. Deutsche Forschungsgemeinschaft (Berlin Cluster of Excellence UniCat/UniSysCat)
  5. Studienstiftung des Deutschen Volkes
  6. FCI

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(aza-)BODIPY dyes (boron dipyrromethene dyes) are well-established fluorophores due to their large quantum yields, stability, and diversity, which led to promising applications including imaging techniques, sensors, organic (opto)electronic materials, or biomedical applications. Although the control of the optical properties in (aza-)BODIPY dyes by peripheral functional groups is well studied, we herein present a novel approach to modify the 12 pi-electron core of the dipyrromethene scaffold. The replacement of two carbon atoms in the beta-position of a BODIPY dye by two nitrogen atoms afforded a 14 pi-electron system, which was termed BODIIM (boron diimidazolylmethene) in systematic analogy to the BODIPY dyes. Remarkably, the BODIIM dye was obtained with a BH2-rigidifying entity, which is currently elusive and highly sought after for the BODIPY dye class. DFT-Calculations confirm the [12+2] pi-electron relationship between BODIPY and BODIIM and reveal a strong shape correlation between LUMO in the BODIPY and the HOMO of the BODIIM. The modification of the pi-system leads to a dramatic shift of the optical properties, of which the fluorescent emission is most noteworthy and occurs at much larger Stokes shift, that is, approximate to 500 cm(-1) in BODIPY versus >4170 cm(-1) in BODIIM system in all solvents investigated. Nucleophilic reactivity was found at the meso-carbon atom in the formation of stable borane adducts with a significant shift of the fluorescent emission, and this behavior contrasts the reactivity of conventional BODIPY systems. In addition, the reverse decomplexation of the borane adducts was demonstrated in reactions with a representative N-heterocyclic carbene to retain the strongly fluorescent BODIIM compound, which suggests applications as fully reversible fluorescent switch.

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