Charge-Separated States Determined Photoinduced Electron Transfer Efficiency in a D-D-A System in an External Electric Field

• Focusing on the photoinduced electron transfer properties of the D-D-A molecule ((TPA-TT)-BODIPY-C60) in an external electric field (Fext), the excited-state properties in which the double-donor molecule is excited to form three charge-separated states were simulated. The charge-Transfer processes of these three charge-separated states were investigated by considering the two donors as a whole ((TPA-TT-BODIPY)·+-C60·-) as a comparison object. The electronic coupling (VDA), reorganization energy (λ), and free energy (δG) of the different charge-separated states in Fext were calculated and simulated. The calculated results show that the λ of (TPA-TT-BODIPY)·+-C60·- ranges from 0.576 to 0.51 eV, and the calculated δG of exciton dissociation ranges from-1.402 to-1.143 eV, indicating that exciton dissociation occurs in the Marcus inverted region. In the range of Fext =-10 × 10-5 to 10 × 10-5 au, the trend of the charge-Transfer rate is gradually increasing, and the rate increase is mainly from the VDA and δG changes. Moreover, the rapid formation of the (TPA-TT)-BODIPY·+-C60·- charge-separated state and the formation of the long-lived (TPA-TT)·+-BODIPY-C60·- are indicated by the exciton dissociation rate. By studying the charge-Transfer parameters under different electric field directions, it is found that the regulation of electric field strength on the charge-Transfer rate is consistent. These results provide a feasible method for the rational design of a new type of electron transfer process with high efficiency of the D-D-A system.

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NATURVETENSKAP  -- Kemi -- Fysikalisk kemi (hsv//swe)

NATURAL SCIENCES  -- Chemical Sciences -- Physical Chemistry (hsv//eng)

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