Electronic structure methods offer in principle accurate predictions of molecular properties, however, their applicability is limited by computational costs. Empirical methods are cheaper, but come with inherent approximations and are dependent on the quality and quantity of training data. The rise of machine learning (ML) force fields (FFs) exacerbates limitations related to training data even further, especially for condensed-phase systems for which the generation of large and high-quality training datasets is difficult. Here, we propose a hybrid ML/classical FF model that is parametrized exclusively on high-quality ab initio data of dimers and monomers in vacuum but is transferable to condensed-phase systems. The proposed hybrid model co...
Simulations of molecular systems using electronic structure methods are still not feasible for many ...
We develop a machine-learning method for coarse-graining condensed-phase molecular systems using ani...
Computer simulation increasingly complements experimental efforts to describe nanoscale structure fo...
We present the construction of molecular force fields for small molecules (less than 25 atoms) using...
Highly accurate force fields are a mandatory requirement to generate predictive simulations. Here we...
Molecular dynamics (MD) simulations employing classical force fields constitute the cornerstone of c...
Accurate modelling of chemical and physical interactions is crucial for obtaining thermodynamic and ...
Using conservation of energy - a fundamental property of closed classical and quantum mechanical sys...
This article may be downloaded for personal use only. Any other use requires prior permission of the...
268 pagesIn this thesis, I will discuss six projects that I participated in during my Ph.D. study, w...
Accurate simulations of atomistic systems from first principles are limited by computational cost. I...
The combination of modern machine learning (ML) approaches with high-quality data from quantum mecha...
Quantum mechanics/molecular mechanics (QM/MM) molecular dynamics (MD) simulations have been develope...
Supplementary files for article: Machine learning force fields based on local parametrization of dis...
Simultaneously accurate and efficient prediction of molecular properties throughout chemical compoun...
Simulations of molecular systems using electronic structure methods are still not feasible for many ...
We develop a machine-learning method for coarse-graining condensed-phase molecular systems using ani...
Computer simulation increasingly complements experimental efforts to describe nanoscale structure fo...
We present the construction of molecular force fields for small molecules (less than 25 atoms) using...
Highly accurate force fields are a mandatory requirement to generate predictive simulations. Here we...
Molecular dynamics (MD) simulations employing classical force fields constitute the cornerstone of c...
Accurate modelling of chemical and physical interactions is crucial for obtaining thermodynamic and ...
Using conservation of energy - a fundamental property of closed classical and quantum mechanical sys...
This article may be downloaded for personal use only. Any other use requires prior permission of the...
268 pagesIn this thesis, I will discuss six projects that I participated in during my Ph.D. study, w...
Accurate simulations of atomistic systems from first principles are limited by computational cost. I...
The combination of modern machine learning (ML) approaches with high-quality data from quantum mecha...
Quantum mechanics/molecular mechanics (QM/MM) molecular dynamics (MD) simulations have been develope...
Supplementary files for article: Machine learning force fields based on local parametrization of dis...
Simultaneously accurate and efficient prediction of molecular properties throughout chemical compoun...
Simulations of molecular systems using electronic structure methods are still not feasible for many ...
We develop a machine-learning method for coarse-graining condensed-phase molecular systems using ani...
Computer simulation increasingly complements experimental efforts to describe nanoscale structure fo...