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Quantum dynamics of photoinduced electron-transfer reactions in dye-semiconductor systems: First-principles description and application to coumarin 343-TiO2

Kondov, I; Čížek, M; Benesch, C; Wang, HB; Thoss, M

A method to describe the quantum dynamics of photoinduced heterogeneous electron-transfer processes at dye-semiconductor interfaces is proposed. The method is based on a model Hamiltonian, the parameters of which are determined by first-principles electronic structure calculations and a partitioning scheme to define localized donor and acceptor states as well as donor-acceptor coupling matrix elements. On the basis of this modeling procedure, accurate quantum dynamical simulations are performed employing the multilayer multiconfiguration time-dependent Hartree method. As a representative example, applications to coumarin 343 adsorbed on titanium oxide nanoparticles are presented. The results of the simulations show that the ultrafast electron-injection process in this system is accompanied by electronic coherence effects, which are partially quenched due to electronic-nuclear coupling.
typ:article
journal:J. Phys. Chem. C
volume:111
nr:32
pages:11970-11981
year:2007
month:255
publisher:AMER CHEMICAL SOC
odkaz: http://utf.mff.cuni.cz/~cizek/naseclanky/2007_kcbwt.pdf

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