In QM/MM calculations, it is essential to handle electrostatic interactions between the QM and MM subsystems accurately and efficiently. To achieve maximal efficiency, it is convenient to adopt a hybrid scheme, where the QM electron density is used explicitly in the evaluation of short-range QM/MM electrostatic interactions, while a multipolar representation for the QM electron density is employed to account for the long-range QM/MM electrostatic interactions. In order to avoid energy discontinuity at the cutoffs, which separate the short- and long-range QM/MM electrostatic interactions, a switching function should be utilized to ensure a smooth potential energy surface. In this study, we benchmarked the accuracy of such hybrid embedding sc...
Here we present a method for modeling polarization in hybrid QM/MM calculations. The method, which e...
We present an interface of the wavefunction-based quantum chemical software CFOUR to the multiscale ...
In this paper, we have extended to the calculation of hyperfine coupling constants, the model recent...
In QM/MM calculations, it is essential to handle electrostatic interactions between the QM and MM su...
Abstract: A method is presented for the efficient evaluation of long-range electrostatic forces in c...
A quantum mechanics/molecular mechanics (QM/MM) implementation that uses the Gaussian electrostatic ...
This study presents several divide and conquer type algorithms to compute electrostatic potentials i...
Quantum mechanics/molecular mechanics (QM/MM) simulations of reactions in solutions and in solvated ...
<div><p>The calculation of protein–ligand binding free energy (Δ<i>G</i>) is of great importance for...
Herein, an Energy Decomposition Analysis (EDA) scheme extended to the framework of QM/MM calculation...
Herein, an Energy Decomposition Analysis (EDA) scheme extended to the framework of QM/MM calculation...
The use of advanced polarizable potentials in quantum mechanical/molecular mechanical (QM/MM) simula...
Hybrid quantum mechanical / molecular mechanical (QM/MM) approaches have been used to provide a gene...
Hybrid quantum mechanics / molecular mechanics (QM/MM) models successfully describe the properties o...
The effects of charge overlap, or charge penetration, are neglected in most force fields and interac...
Here we present a method for modeling polarization in hybrid QM/MM calculations. The method, which e...
We present an interface of the wavefunction-based quantum chemical software CFOUR to the multiscale ...
In this paper, we have extended to the calculation of hyperfine coupling constants, the model recent...
In QM/MM calculations, it is essential to handle electrostatic interactions between the QM and MM su...
Abstract: A method is presented for the efficient evaluation of long-range electrostatic forces in c...
A quantum mechanics/molecular mechanics (QM/MM) implementation that uses the Gaussian electrostatic ...
This study presents several divide and conquer type algorithms to compute electrostatic potentials i...
Quantum mechanics/molecular mechanics (QM/MM) simulations of reactions in solutions and in solvated ...
<div><p>The calculation of protein–ligand binding free energy (Δ<i>G</i>) is of great importance for...
Herein, an Energy Decomposition Analysis (EDA) scheme extended to the framework of QM/MM calculation...
Herein, an Energy Decomposition Analysis (EDA) scheme extended to the framework of QM/MM calculation...
The use of advanced polarizable potentials in quantum mechanical/molecular mechanical (QM/MM) simula...
Hybrid quantum mechanical / molecular mechanical (QM/MM) approaches have been used to provide a gene...
Hybrid quantum mechanics / molecular mechanics (QM/MM) models successfully describe the properties o...
The effects of charge overlap, or charge penetration, are neglected in most force fields and interac...
Here we present a method for modeling polarization in hybrid QM/MM calculations. The method, which e...
We present an interface of the wavefunction-based quantum chemical software CFOUR to the multiscale ...
In this paper, we have extended to the calculation of hyperfine coupling constants, the model recent...