Add to ORKGABSTRACT: In combined quantum mechanical/molecular mechanical (QM/MM) free energy calculations, it is often advantageous to have a frozen geometry for the quantum mechanical (QM) region. For such multiple-environment single-system (MESS) cases, two schemes are proposed here for estimating the polarization energy: the first scheme, termed MESS-E, involves a Roothaan step extrapolation of the self-consistent field (SCF) energy; whereas the other scheme, termed MESS-H, employs a Newton−Raphson correction using an approximate inverse electronic Hessian of the QM region (which is constructed only once). Both schemes are extremely efficient, because the expensive Fock updates and SCF iterations in standard QM/MM calculations are completely avoide...
Over the past decade there has been a big interest in modeling and simulating large complex systems ...
CONSPECTUS: Molecular mechanical force fields have been successfully used to model condensed-phase a...
Maintaining a proper balance between specific intermolecular interactions and non-specific solvent i...
ABSTRACT: In combined quantum mechanical/molecular mechanical (QM/MM) free energy calculations, it i...
The concept of model chemistries within hybrid QM/MM calculations has been addressed through analysi...
We present a molecular simulation protocol to compute free energies of binding, which combines a QM/...
Compromising of computational cost and accuracy, combined quantum mechanical and molecular mechanica...
In this work, we report two polarizable molecular mechanics (polMM) force field models for estimatin...
A recently developed MESS-E-QM/MM method (multiple-environment single-system quantum mechanical mole...
In this thesis, we present novel computational methods and frameworks to address the challenges asso...
The computation of free energy is pivotal to understanding the fundamental nature of chemical phenom...
In this thesis, a simplified Quantum Mechanics/Molecular Mechanics (QM/MM) method has been developed...
ConspectusMolecular mechanical force fields have been successfully used to model condensed-phase and...
A recently developed MESS-E-QM/MM method (multiple-environment single-system quantum mechanical mole...
Computational chemists have successfully simulated many systems by applying the principles of quantu...
Over the past decade there has been a big interest in modeling and simulating large complex systems ...
CONSPECTUS: Molecular mechanical force fields have been successfully used to model condensed-phase a...
Maintaining a proper balance between specific intermolecular interactions and non-specific solvent i...
ABSTRACT: In combined quantum mechanical/molecular mechanical (QM/MM) free energy calculations, it i...
The concept of model chemistries within hybrid QM/MM calculations has been addressed through analysi...
We present a molecular simulation protocol to compute free energies of binding, which combines a QM/...
Compromising of computational cost and accuracy, combined quantum mechanical and molecular mechanica...
In this work, we report two polarizable molecular mechanics (polMM) force field models for estimatin...
A recently developed MESS-E-QM/MM method (multiple-environment single-system quantum mechanical mole...
In this thesis, we present novel computational methods and frameworks to address the challenges asso...
The computation of free energy is pivotal to understanding the fundamental nature of chemical phenom...
In this thesis, a simplified Quantum Mechanics/Molecular Mechanics (QM/MM) method has been developed...
ConspectusMolecular mechanical force fields have been successfully used to model condensed-phase and...
A recently developed MESS-E-QM/MM method (multiple-environment single-system quantum mechanical mole...
Computational chemists have successfully simulated many systems by applying the principles of quantu...
Over the past decade there has been a big interest in modeling and simulating large complex systems ...
CONSPECTUS: Molecular mechanical force fields have been successfully used to model condensed-phase a...
Maintaining a proper balance between specific intermolecular interactions and non-specific solvent i...