International audienceContinuum solvation models are widely used to accurately estimate solvent effects on energy, structural and spectroscopic properties of complex molecular systems. The polarizable continuum model (PCM) is one of the most versatile among the continuum models because of the variety of properties that can be computed and the diversity of methods that can be used to describe the solute from molecular mechanics (MM) to sophisticated quantum mechanical (QM) post-self-consistent field methods or even hybrid QM/MM methods. In this contribution, we present a new formulation of PCM in terms of a free energy functional whose variational parameters include the continuum polarization (represented by the apparent surface charges), th...
We present a combined fluctuating charges-polarizable continuum model approach to describe molecules...
A method that combines quantum mechanics (QM), typically a solute, the effective fragment potential ...
The computational study of excited states of molecular systems in a condensed phase introduces prob...
International audienceContinuum solvation models are widely used to accurately estimate solvent effe...
Continuum solvation models are widely used to accurately estimate solvent effects on energy, structu...
We present a new strategy for the solution of the self-consistent field (SCF) equations when solvent...
ABSTRACT Apparent surface charge, reaction-field solvation models often em-ploy overlapping atomic s...
We examine the state of the art of the solvation procedure called the polarizable continuum model (P...
Polarizable continuum solvation models are nowadays the most popular approach to describe solvent ef...
Apparent surface charge, reaction-field solvation models often employ overlapping atomic spheres to ...
This work describes a new and low-scaling implementation of the polarizable continuum model (PCM) fo...
The study of molecular systems in a condensed phase with quantum-mechanical tools introduces problem...
We present here a new version of the polarizable continuum model (PCM) for the ab-initio description...
We present a new implementation of the polarizable continuum model (PCM) at the multiconfigurational...
We present a new implementation of the polarizable continuum model PCM at the multiconfigurational s...
We present a combined fluctuating charges-polarizable continuum model approach to describe molecules...
A method that combines quantum mechanics (QM), typically a solute, the effective fragment potential ...
The computational study of excited states of molecular systems in a condensed phase introduces prob...
International audienceContinuum solvation models are widely used to accurately estimate solvent effe...
Continuum solvation models are widely used to accurately estimate solvent effects on energy, structu...
We present a new strategy for the solution of the self-consistent field (SCF) equations when solvent...
ABSTRACT Apparent surface charge, reaction-field solvation models often em-ploy overlapping atomic s...
We examine the state of the art of the solvation procedure called the polarizable continuum model (P...
Polarizable continuum solvation models are nowadays the most popular approach to describe solvent ef...
Apparent surface charge, reaction-field solvation models often employ overlapping atomic spheres to ...
This work describes a new and low-scaling implementation of the polarizable continuum model (PCM) fo...
The study of molecular systems in a condensed phase with quantum-mechanical tools introduces problem...
We present here a new version of the polarizable continuum model (PCM) for the ab-initio description...
We present a new implementation of the polarizable continuum model (PCM) at the multiconfigurational...
We present a new implementation of the polarizable continuum model PCM at the multiconfigurational s...
We present a combined fluctuating charges-polarizable continuum model approach to describe molecules...
A method that combines quantum mechanics (QM), typically a solute, the effective fragment potential ...
The computational study of excited states of molecular systems in a condensed phase introduces prob...