We report the development and the implementation of an exciton approach that allows ab initio nonadiabatic dynamics simulations of electronic excitation energy transfer in multichromophoric systems. For the dynamics, a trajectory-based strategy is used within the surface hopping formulation. The approach features a consistent hybrid formulation that allows the construction of potential energy surfaces and gradients by combining quantum mechanics and molecular mechanics within an electrostatic embedding scheme. As an application, the study of a molecular dyad consisting of a covalently bound BODIPY moiety and a tetrathiophene group is presented using time-dependent density functional theory (TDDFT). The results obtained with the exciton mode...
In this work, the advantages of a locally diabatic propagation of the electronic wave function in su...
Understanding energy transfer and charge separation after excitation has enormous relevance to biolo...
Modeling of the excited states of multichromophoric systems is crucial for the understanding of phot...
We report the development and the implementation of an exciton approach that allows ab initio nonadi...
We report the development and the implementation of an exciton approach that allows ab initio nonadi...
We report the development and the implementation of an exciton approach that allows ab initio nonadi...
We present an implementation of the Frenkel exciton model in the framework of the semiempirical floa...
The study of energy/charge transfer and other aspects of nonadiabatic dynamics in multichromophoric ...
Quantum dynamical simulations are essential for a molecular-level understanding of light-induced pro...
Photoinduced dynamics of electronic and vibrational unidirectional energy transfer between meta-link...
The detailed knowledge of the processes following photoexcitation is extremely important, but the un...
The interplay of excitonic and vibronic coupling in coupled chromophores determines the efficiency o...
In this work, the advantages of a locally diabatic propagation of the electronic wave function in su...
Optically active molecular materials, such as organic conjugated polymers and biological systems, ar...
The St Andrews group acknowledges support from the European Research Council (grant number 321305) a...
In this work, the advantages of a locally diabatic propagation of the electronic wave function in su...
Understanding energy transfer and charge separation after excitation has enormous relevance to biolo...
Modeling of the excited states of multichromophoric systems is crucial for the understanding of phot...
We report the development and the implementation of an exciton approach that allows ab initio nonadi...
We report the development and the implementation of an exciton approach that allows ab initio nonadi...
We report the development and the implementation of an exciton approach that allows ab initio nonadi...
We present an implementation of the Frenkel exciton model in the framework of the semiempirical floa...
The study of energy/charge transfer and other aspects of nonadiabatic dynamics in multichromophoric ...
Quantum dynamical simulations are essential for a molecular-level understanding of light-induced pro...
Photoinduced dynamics of electronic and vibrational unidirectional energy transfer between meta-link...
The detailed knowledge of the processes following photoexcitation is extremely important, but the un...
The interplay of excitonic and vibronic coupling in coupled chromophores determines the efficiency o...
In this work, the advantages of a locally diabatic propagation of the electronic wave function in su...
Optically active molecular materials, such as organic conjugated polymers and biological systems, ar...
The St Andrews group acknowledges support from the European Research Council (grant number 321305) a...
In this work, the advantages of a locally diabatic propagation of the electronic wave function in su...
Understanding energy transfer and charge separation after excitation has enormous relevance to biolo...
Modeling of the excited states of multichromophoric systems is crucial for the understanding of phot...