Stochactic model of charge separation in photo excited molecular triad
Автор: Mikhaylova Tatyana Vladimirovna, Roshchina Darya Andreevna, Mikhaylova Elena Aleksandrovna, Mikhaylova Valentina Aleksandrovna
Журнал: Математическая физика и компьютерное моделирование @mpcm-jvolsu
Рубрика: Физика
Статья в выпуске: 3 (34), 2016 года.
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Within framework of the stationary stochastic model the dynamics of ultrafast photoinduced electron transfer reactions in the donor-acceptor triad are studied. The molecular triad DA1A2 contains a primary electron donor D that transfers an electron to consistently to the nearest neighbor acceptor A1 and acceptor A2 in accordance with the scheme * I II DA1 A2 D A1 A2 D A1 A2 D A1 A2. This separation of charges is of paramount importance for the efficient functioning of the photosynthetic reaction centers containing an ordered array of secondary electron acceptors. The model accounts for the solvent reorganization and decay of intermediate (D+A- 1A2) and final products (D+A1A- 2) of the reaction. An analytical expression for the probability of the charge transfer to secondary acceptor of flowing parallel to the relaxation of polar solvent is received. Quantitative estimation of the influence of the decay reaction products on the charge separation probability is made. It is shown that the decay of the molecular triad final state (D+A1A- 2) increases charge separation probability WCS. The most noticeable influence of the product decay time v3 on WCS is seen in the Marcus normal region (up 30 %), and in the Marcus inverted region WCS varies slightly with variation of the product decay time v3. The mechanism of the effect is transparent enough. The final reaction state decay constrains reverse flow, which increases the direct charge transfer rate and therefore the probability of charge separation increases. Fast decay of the intermediate ( D A1 A2 ) products of reaction blocks up charge transfer to the secondary acceptor.
Photoinduced reactions of charge transfer, intramolecular vibrational relaxation, molecular donor-acceptor triad, electron, molecular systems
Короткий адрес: https://sciup.org/14969016
IDR: 14969016 | DOI: 10.15688/jvolsu1.2016.3.6