We propose a new approach for estimating the electrostatic part of the excitation energy transfer (EET) coupling between electronically excited chromophores based on the transition density-derived cumulative atomic multipole moments (TrCAMM). In this approach, the transition potential of a chromophore is expressed in terms of truncated distributed multipolar expansion and analytical formulas for the TrCAMMs are derived. The accuracy and computational feasibility of the proposed approach is tested against the exact Coulombic couplings, and various multipole expansion truncation schemes are analyzed. The results of preliminary calculations show that the TrCAMM approach is capable of reproducing the exact Coulombic EET couplings accurately and...
The density functional package DeFT is used for systems with a large number of charge distributions,...
Abstract: Accurate and fast evaluation of electrostatic interactions in molecular systems is still o...
We critically analyze the performances of continuum solvation models when coupled to time-dependent ...
Electronic coupling is a key parameter that controls the efficiency of excitation energy transfer (E...
: Electronic couplings are key to understanding exciton delocalization and transport in natural and ...
The Coulombic coupling of electric dipole (E1) transition moments is the most commonly studied and w...
A simplified approach for computing the electronic coupling of nonradiative excitation-energy transf...
This thesis introduces the basic principles of quantum chemistry, photochemistry and the computation...
We present a comparative study on the influence of the quantum mechanical QM method including basis ...
We report the development and the implementation of an exciton approach that allows ab initio nonadi...
\u3cp\u3eA general approach to determine orientation and distance-dependent effective intermolecular...
We report the development and the implementation of an exciton approach that allows ab initio nonadi...
The interplay between electronic coupling, spectral linewidth, and rate of electronic energy transfe...
A method is presented for calculating the total electrostatic interaction energies between molecules...
A truncated multipole expansion can be re-expressed exactly using an appropriate arrangement of poin...
The density functional package DeFT is used for systems with a large number of charge distributions,...
Abstract: Accurate and fast evaluation of electrostatic interactions in molecular systems is still o...
We critically analyze the performances of continuum solvation models when coupled to time-dependent ...
Electronic coupling is a key parameter that controls the efficiency of excitation energy transfer (E...
: Electronic couplings are key to understanding exciton delocalization and transport in natural and ...
The Coulombic coupling of electric dipole (E1) transition moments is the most commonly studied and w...
A simplified approach for computing the electronic coupling of nonradiative excitation-energy transf...
This thesis introduces the basic principles of quantum chemistry, photochemistry and the computation...
We present a comparative study on the influence of the quantum mechanical QM method including basis ...
We report the development and the implementation of an exciton approach that allows ab initio nonadi...
\u3cp\u3eA general approach to determine orientation and distance-dependent effective intermolecular...
We report the development and the implementation of an exciton approach that allows ab initio nonadi...
The interplay between electronic coupling, spectral linewidth, and rate of electronic energy transfe...
A method is presented for calculating the total electrostatic interaction energies between molecules...
A truncated multipole expansion can be re-expressed exactly using an appropriate arrangement of poin...
The density functional package DeFT is used for systems with a large number of charge distributions,...
Abstract: Accurate and fast evaluation of electrostatic interactions in molecular systems is still o...
We critically analyze the performances of continuum solvation models when coupled to time-dependent ...