Mixed quantum mechanical (QM)/classical methods provide a computationally efficient approach to modeling both ground and excited states in the condensed phase. To accurately model short-range interactions, some amount of the environment can be included in the QM region, whereas a classical model can treat long-range interactions to maintain computational affordability. The best computational protocol for these mixed QM/classical methods can be determined by examining convergence of molecular properties. Here, we compare molecular mechanical (MM) fixed point charges to a polarizable continuum model (PCM) for computing electronic excitations in solution. We computed the excitation energy of three pairs of neutral/anionic molecules in aqueous ...
We extend our recently developed quantum-mechanical/molecular mechanics (QM/MM) approach [Dziedzic e...
Intermolecular interaction and solvent effects play important roles in determining physical and chem...
We report a systematic comparison of the dispersion and repulsion contributions to the free energy o...
For reliable condensed phase simulations, an accurate model that includes both short- and long-range...
Solvent effects on chiroptical properties and spectroscopies can be huge, and affect not only the ab...
The fully polarizable Quantum Mechanics/Molecular Mechanics (QM/MM) approach based on fluctuating ch...
Maintaining a proper balance between specific intermolecular interactions and non-specific solvent i...
Herein, an Energy Decomposition Analysis (EDA) scheme extended to the framework of QM/MM calculation...
We examine the state of the art of the solvation procedure called the polarizable continuum model (P...
We present a comparative study on the influence of the quantum mechanical QM method including basis ...
We present a quantum-mechanical theory to study excitation energy transfers between molecular system...
The computational study of excited states of molecular systems in a condensed phase introduces prob...
We present a combined quantum mechanics and molecular mechanics (QM/MM) method to study electronic e...
The computational study of excited states of molecular systems in a condensed phase introduces pr...
We present a quantum-mechanical theory to study excitation energy transfers between molecular syste...
We extend our recently developed quantum-mechanical/molecular mechanics (QM/MM) approach [Dziedzic e...
Intermolecular interaction and solvent effects play important roles in determining physical and chem...
We report a systematic comparison of the dispersion and repulsion contributions to the free energy o...
For reliable condensed phase simulations, an accurate model that includes both short- and long-range...
Solvent effects on chiroptical properties and spectroscopies can be huge, and affect not only the ab...
The fully polarizable Quantum Mechanics/Molecular Mechanics (QM/MM) approach based on fluctuating ch...
Maintaining a proper balance between specific intermolecular interactions and non-specific solvent i...
Herein, an Energy Decomposition Analysis (EDA) scheme extended to the framework of QM/MM calculation...
We examine the state of the art of the solvation procedure called the polarizable continuum model (P...
We present a comparative study on the influence of the quantum mechanical QM method including basis ...
We present a quantum-mechanical theory to study excitation energy transfers between molecular system...
The computational study of excited states of molecular systems in a condensed phase introduces prob...
We present a combined quantum mechanics and molecular mechanics (QM/MM) method to study electronic e...
The computational study of excited states of molecular systems in a condensed phase introduces pr...
We present a quantum-mechanical theory to study excitation energy transfers between molecular syste...
We extend our recently developed quantum-mechanical/molecular mechanics (QM/MM) approach [Dziedzic e...
Intermolecular interaction and solvent effects play important roles in determining physical and chem...
We report a systematic comparison of the dispersion and repulsion contributions to the free energy o...