Directly Fused Porphyrin‐Tetracyanopentacenequinone Conjugates: Role of the Cross‐Conjugated, Powerful Electron Acceptor in Promoting Highly Efficient Charge Separation

Tetracyanopentacenequinone, a powerful electron acceptor, is fused directly to the porphyrin π‐system to create a new class of donor‐acceptor conjugates. Owing to the direct fusion and electron‐deficient property of tetracyanopentacenequinone, strong intramolecular charge transfer both in the ground and excited states was witnessed. As a control, porphyrin fused with pentacenequinone was also investigated. Upon complete spectral and electrochemical characterization, the excited state properties were initially probed by time‐dependent DFT studies, and the occurrence of electron transfer from different excited states was established. Free‐energy calculations revealed higher exothermic electron transfer (> 600 mV) than the control pentacenequinone‐porphyrin systems. Pump‐probe studies covering broad spatial and temporal regions revealed efficient excited state charge separation. This was unlike the control pentacenequinone‐porphyrin system, where slow charge separation was witnessed only in the case of the zinc derivatives but not the free‐base ones. The lifetimes of the charge‐separated states ranged between 30‐500 ps depending on the solvent and metal ion in the porphyrin cavity. The significance of cross‐conjugated tetracyanopentacenequinone fused directly to the porphyrin π system in promoting highly exothermic and efficient charge separation, irrespective of its cross conjugation, is borne out from this study.