Electronic coupling is a key parameter that controls the efficiency of excitation energy transfer (EET) and exciton delocalization. A new approach to estimate electronic coupling is introduced. Within a two-state model, the EET coupling V of two chromophores is expressed via the vertical excitation energies (Ei and Ej), transition dipole moments (Mi and Mj) of the system and transition moments (μA and μB) of the individual chromophores: V = (Ei -E j){[(MiMj)(μA 2 -μB 2) -(μAμB)(M i 2 -Mj 2)]/[(Mi 2 -Mj 2)2 + 4(MiM j)2]}. These quantities are directly available from quantum mechanical calculations. As the estimated coupling accounts for both short-range and long-range interactions, this approach allows for the treatment of systems with short...
For the design of efficient singlet fission chromophores, knowledge of the factors that govern the s...
Electronic energy transfer is widely used as a molecular ruler to interrogate the structure of bioma...
This paper presents a quantum-mechanical study of the intramolecular excitation energy transfer (EET...
Electronic coupling is a key parameter that controls the efficiency of excitation energy transfer (E...
Exciton delocalization and singlet excitation energy transfer have been systematically studied for t...
A simplified approach for computing the electronic coupling of nonradiative excitation-energy transf...
The interplay of excitonic and vibronic coupling in coupled chromophores determines the efficiency o...
We present a comparative study on the influence of the quantum mechanical QM method including basis ...
We propose a new approach for estimating the electrostatic part of the excitation energy transfer (E...
: Electronic couplings are key to understanding exciton delocalization and transport in natural and ...
The excitation energy transfer (EET) allowing the concentration of the energy has been investigated ...
In this paper we present a quantum-mechanical investigation on the mechanisms which promote intramol...
A general approach to determine orientation and distance-dependent effective intermolecular exciton ...
This perspective will focus on the mechanistic aspects of singlet and triplet excitation energy tran...
Electronic couplings in intermolecular electron and energy transfer processes calculated by six diff...
For the design of efficient singlet fission chromophores, knowledge of the factors that govern the s...
Electronic energy transfer is widely used as a molecular ruler to interrogate the structure of bioma...
This paper presents a quantum-mechanical study of the intramolecular excitation energy transfer (EET...
Electronic coupling is a key parameter that controls the efficiency of excitation energy transfer (E...
Exciton delocalization and singlet excitation energy transfer have been systematically studied for t...
A simplified approach for computing the electronic coupling of nonradiative excitation-energy transf...
The interplay of excitonic and vibronic coupling in coupled chromophores determines the efficiency o...
We present a comparative study on the influence of the quantum mechanical QM method including basis ...
We propose a new approach for estimating the electrostatic part of the excitation energy transfer (E...
: Electronic couplings are key to understanding exciton delocalization and transport in natural and ...
The excitation energy transfer (EET) allowing the concentration of the energy has been investigated ...
In this paper we present a quantum-mechanical investigation on the mechanisms which promote intramol...
A general approach to determine orientation and distance-dependent effective intermolecular exciton ...
This perspective will focus on the mechanistic aspects of singlet and triplet excitation energy tran...
Electronic couplings in intermolecular electron and energy transfer processes calculated by six diff...
For the design of efficient singlet fission chromophores, knowledge of the factors that govern the s...
Electronic energy transfer is widely used as a molecular ruler to interrogate the structure of bioma...
This paper presents a quantum-mechanical study of the intramolecular excitation energy transfer (EET...