Concurrent multiscale coupling is a powerful tool for obtaining quantum mechanically (QM) accurate material behavior in a small domain while still capturing long range stress fields using a molecular mechanical (MM) description. We outline an improved scheme for QM/MM coupling in metals which permits the QM treatment of a small region chosen from a large, arbitrary MM domain to calculate total system energy and relaxed geometry. In order to test our improved method, we compute solute-vacancy binding in bulk Al as well as the binding of Mg and Pb to a symmetric Σ5 grain boundary. Results are calculated with and without our improvement to the QM/MM scheme and compared to periodic QM results for the same systems. We find that our scheme accura...
We present an approach to model molecular crystals using an adaptive quantum mechanics/molecular mec...
The combination of quantum mechanics and molecular mechanics (QM/MM) methods is one of the most prom...
Atomistic simulations are a powerful tool for the study of materials, especially in the determinatio...
AbstractConcurrent multiscale coupling is a powerful tool for obtaining quantum mechanically (QM) ac...
This thesis presents a computational study of the interaction between solute atoms and defects in th...
We develop and analyze QM/MM (quantum/classic) hybrid methods for crystalline defects within the con...
Computational modeling techniques are now standard tools in solid‐state science. They are used routi...
The feasibility of a novel approach for the hybrid quantum mechanical/molecular mechanical (QM/MM) t...
The tight binding model is a minimal electronic structure model for molecular modeling and simulatio...
In this chapter, I discuss combined quantum mechanics (QM) and molecular mechanics (MM; QM/MM) calcu...
An additive quantum mechanics/molecular mechanics (QM/MM) model for the theoretical investigation of...
We present an approach to model molecular crystals using an adaptive quantum mechanics/molecular mec...
The QM/MM method, which couples a quantum mechanical (QM) description of bonding in a localized regi...
Quantum mechanics/molecular mechanics (QM/MM) simulations of reactions in solutions and in solvated ...
The QM/MM method, short for quantum mechanical/molecular mechanical, is a highly versatile approach ...
We present an approach to model molecular crystals using an adaptive quantum mechanics/molecular mec...
The combination of quantum mechanics and molecular mechanics (QM/MM) methods is one of the most prom...
Atomistic simulations are a powerful tool for the study of materials, especially in the determinatio...
AbstractConcurrent multiscale coupling is a powerful tool for obtaining quantum mechanically (QM) ac...
This thesis presents a computational study of the interaction between solute atoms and defects in th...
We develop and analyze QM/MM (quantum/classic) hybrid methods for crystalline defects within the con...
Computational modeling techniques are now standard tools in solid‐state science. They are used routi...
The feasibility of a novel approach for the hybrid quantum mechanical/molecular mechanical (QM/MM) t...
The tight binding model is a minimal electronic structure model for molecular modeling and simulatio...
In this chapter, I discuss combined quantum mechanics (QM) and molecular mechanics (MM; QM/MM) calcu...
An additive quantum mechanics/molecular mechanics (QM/MM) model for the theoretical investigation of...
We present an approach to model molecular crystals using an adaptive quantum mechanics/molecular mec...
The QM/MM method, which couples a quantum mechanical (QM) description of bonding in a localized regi...
Quantum mechanics/molecular mechanics (QM/MM) simulations of reactions in solutions and in solvated ...
The QM/MM method, short for quantum mechanical/molecular mechanical, is a highly versatile approach ...
We present an approach to model molecular crystals using an adaptive quantum mechanics/molecular mec...
The combination of quantum mechanics and molecular mechanics (QM/MM) methods is one of the most prom...
Atomistic simulations are a powerful tool for the study of materials, especially in the determinatio...