We propose a general formalism for polarizable embedding models that can be applied to either continuum or atomistic polarizable models. After deriving such a formalism for both variational and non-variational models, we address the problem of coupling two polarizable models among themselves and to a quantum mechanical (QM) description in the spirit of multiscale quantum chemistry. We discuss general, model-independent coupling hypotheses and derive coupled polarization equations for all combinations of variational and non-variational models and discuss the embedding contributions to the analytical derivatives of the energy, with a particular focus on the elements of the Fock or Kohn-Sham matrix. We apply the general formalism to the deriva...
Polarizable continuum solvation models are nowadays the most popular approach to describe solvent ef...
We present an ab initio polarizable representation of classical molecular mechanics (MM) atoms by em...
In this work, we present a general route to hybrid Quantum Mechanics/Molecular Mechanics (QM/MM) Mol...
We propose a general formalism for polarizable embedding models that can be applied to either contin...
We present the implementation of a fully coupled polarizable QM/MM/continuum model based on the AMOE...
The computational modeling of molecules embedded in complex (bio)matrices is extremely challenging d...
Nowadays, hybrid QM/MM approaches are widely used to study (supra)molecular systems embedded in comp...
We present a new QM/QM/MM-based model for calculating molecular properties and excited states of sol...
A general framework to treat polarizable embedding schemes in the context of QM/MM calculations is p...
We present a new QM-/QM/MM-based Model for calculating molecular properties and excited states,of so...
A method that combines quantum mechanics (QM), typically a solute, the effective fragment potential ...
A polarizable quantum mechanics (QM)/ molecular mechanics (MM) approach recently developed for Hartr...
We recently introduced a polarizable embedding scheme based on an integral-exact reformulation of th...
The novel polarizable FQFμ force field is proposed and coupled to a QM SCF Hamiltonian. The peculiar...
We extend our recently developed quantum-mechanical/molecular mechanics (QM/MM) approach [Dziedzic e...
Polarizable continuum solvation models are nowadays the most popular approach to describe solvent ef...
We present an ab initio polarizable representation of classical molecular mechanics (MM) atoms by em...
In this work, we present a general route to hybrid Quantum Mechanics/Molecular Mechanics (QM/MM) Mol...
We propose a general formalism for polarizable embedding models that can be applied to either contin...
We present the implementation of a fully coupled polarizable QM/MM/continuum model based on the AMOE...
The computational modeling of molecules embedded in complex (bio)matrices is extremely challenging d...
Nowadays, hybrid QM/MM approaches are widely used to study (supra)molecular systems embedded in comp...
We present a new QM/QM/MM-based model for calculating molecular properties and excited states of sol...
A general framework to treat polarizable embedding schemes in the context of QM/MM calculations is p...
We present a new QM-/QM/MM-based Model for calculating molecular properties and excited states,of so...
A method that combines quantum mechanics (QM), typically a solute, the effective fragment potential ...
A polarizable quantum mechanics (QM)/ molecular mechanics (MM) approach recently developed for Hartr...
We recently introduced a polarizable embedding scheme based on an integral-exact reformulation of th...
The novel polarizable FQFμ force field is proposed and coupled to a QM SCF Hamiltonian. The peculiar...
We extend our recently developed quantum-mechanical/molecular mechanics (QM/MM) approach [Dziedzic e...
Polarizable continuum solvation models are nowadays the most popular approach to describe solvent ef...
We present an ab initio polarizable representation of classical molecular mechanics (MM) atoms by em...
In this work, we present a general route to hybrid Quantum Mechanics/Molecular Mechanics (QM/MM) Mol...