Accounting for geometry-induced changes in the electronic distribution in molecular simulation is important for capturing effects such as charge flow, charge anisotropy, and polarization. Multipolar force fields have demonstrated their ability to correctly represent chemically significant features such as anisotropy and sigma holes. It has also been shown that off-center point charges offer a compact alternative with similar accuracy. Here, it is demonstrated that allowing relocation of charges within a minimally distributed charge model (MDCM) with respect to their reference atoms is a viable route to capture changes in the molecular charge distribution depending on geometry, i.e., intramolecular polarization. The approach, referred to as ...
Atomic partial charges for use in traditional force fields for biomolecular simulation are often fit...
The practical use of ionic liquids (ILs) is benefiting from a growing understanding of the underpinn...
ABSTRACT: In order to carry out a detailed analysis of the molecular static polarizability, which is...
Fluctuating-charge models are computationally efficient methods of treating polarization and charge-...
A truncated multipole expansion can be re-expressed exactly using an appropriate arrangement of poin...
A truncated multipole expansion can be re-expressed exactly using an appropriate arrangement of poin...
The performance of multipole (MTP) and point charge (PC) force fields in classical molecular dynamic...
Molecular dynamics (MD) simulation has become an indispensable tool in computational chemistry. It i...
International audienceWe extend the framework for polarizable force fields to include the case where...
In order to carry out a detailed analysis of the molecular static polarizability, which is the respo...
Advanced potential energy surfaces are defined as theoretical models that explicitly include many-bo...
A correct description of electrostatic contributions in force fields for classical simulations is ma...
We present an efficient polarizable electrostatic model based on direct polarization, SMIRNOFF speci...
Advanced potential energy surfaces are defined as theoretical models that explicitly include many-bo...
YesKey to progress in molecular simulation is the development of advanced models that go beyond the ...
Atomic partial charges for use in traditional force fields for biomolecular simulation are often fit...
The practical use of ionic liquids (ILs) is benefiting from a growing understanding of the underpinn...
ABSTRACT: In order to carry out a detailed analysis of the molecular static polarizability, which is...
Fluctuating-charge models are computationally efficient methods of treating polarization and charge-...
A truncated multipole expansion can be re-expressed exactly using an appropriate arrangement of poin...
A truncated multipole expansion can be re-expressed exactly using an appropriate arrangement of poin...
The performance of multipole (MTP) and point charge (PC) force fields in classical molecular dynamic...
Molecular dynamics (MD) simulation has become an indispensable tool in computational chemistry. It i...
International audienceWe extend the framework for polarizable force fields to include the case where...
In order to carry out a detailed analysis of the molecular static polarizability, which is the respo...
Advanced potential energy surfaces are defined as theoretical models that explicitly include many-bo...
A correct description of electrostatic contributions in force fields for classical simulations is ma...
We present an efficient polarizable electrostatic model based on direct polarization, SMIRNOFF speci...
Advanced potential energy surfaces are defined as theoretical models that explicitly include many-bo...
YesKey to progress in molecular simulation is the development of advanced models that go beyond the ...
Atomic partial charges for use in traditional force fields for biomolecular simulation are often fit...
The practical use of ionic liquids (ILs) is benefiting from a growing understanding of the underpinn...
ABSTRACT: In order to carry out a detailed analysis of the molecular static polarizability, which is...