The quality of atomistic simulations depends decisively on the accuracy of the underlying energy function (force field). Of particular importance for condensed-phase properties are nonbonded interactions, including the electrostatic and Lennard-Jones terms. Permanent atomic multipoles (MTPs) are an extension to common point-charge (PC) representations in atomistic simulations. MTPs are commonly determined from and fitted to an ab initio Electrostatic Potential (ESP), and Lennard-Jones (LJ) parameters are obtained from comparison of experimental and computed observables using molecular dynamics (MD) simulations. For this a set of thermodynamic observables such as density, heat of vaporization, and hydration free energy is chosen, to which th...
Meaningful efforts in computer-aided drug design (CADD) require accurate molecular mechanical force ...
We introduce a toolset of program libraries collectively titled multipurpose atom‐typer for CHARMM (...
Atomic partial charges appear in the Coulomb term of many force-field models and can be derived from...
The quality of atomistic simulations depends decisively on the accuracy of the underlying energy fun...
Molecular dynamics simulations are helpful tools for a range of applications, ranging from drug disc...
Permanent multipoles (MTPs) embody a natural extension to common point-charge (PC) representations i...
peer-reviewedMolecular simulation is increasingly used by chemical engineers and industrial chemists...
This thesis pioneers the development of non-empirical anisotropic atom-atom force-fields for organic...
Atomistic and molecular simulations have become an important research field due to the progress made...
Simulations allow us to predict free energies and physical properties of molecules in advance of the...
We present a re-parameterization of the a popular intermolecular force field for describing intermol...
The performance of multipole (MTP) and point charge (PC) force fields in classical molecular dynamic...
Molecular simulation is increasingly used by chemical engineers and industrial chemists in process a...
This thesis develops a rational foundation for the application of long-range forces to atomistic sim...
We propose a methodology to derive pairwise-additive noncovalent force fields from monomer electron ...
Meaningful efforts in computer-aided drug design (CADD) require accurate molecular mechanical force ...
We introduce a toolset of program libraries collectively titled multipurpose atom‐typer for CHARMM (...
Atomic partial charges appear in the Coulomb term of many force-field models and can be derived from...
The quality of atomistic simulations depends decisively on the accuracy of the underlying energy fun...
Molecular dynamics simulations are helpful tools for a range of applications, ranging from drug disc...
Permanent multipoles (MTPs) embody a natural extension to common point-charge (PC) representations i...
peer-reviewedMolecular simulation is increasingly used by chemical engineers and industrial chemists...
This thesis pioneers the development of non-empirical anisotropic atom-atom force-fields for organic...
Atomistic and molecular simulations have become an important research field due to the progress made...
Simulations allow us to predict free energies and physical properties of molecules in advance of the...
We present a re-parameterization of the a popular intermolecular force field for describing intermol...
The performance of multipole (MTP) and point charge (PC) force fields in classical molecular dynamic...
Molecular simulation is increasingly used by chemical engineers and industrial chemists in process a...
This thesis develops a rational foundation for the application of long-range forces to atomistic sim...
We propose a methodology to derive pairwise-additive noncovalent force fields from monomer electron ...
Meaningful efforts in computer-aided drug design (CADD) require accurate molecular mechanical force ...
We introduce a toolset of program libraries collectively titled multipurpose atom‐typer for CHARMM (...
Atomic partial charges appear in the Coulomb term of many force-field models and can be derived from...