We present a method for optimizing transition state theory dividing surfaces with support vector machines. The resulting dividing surfaces require no a priori information or intuition about reaction mechanisms. To generate optimal dividing surfaces, we apply a cycle of machine-learning and refinement of the surface by molecular dynamics sampling. We demonstrate that the machinelearned surfaces contain the relevant low-energy saddle points. The mechanisms of reactions may be extracted from the machine-learned surfaces in order to identify unexpected chemically relevant processes. Furthermore, we show that the machine-learned surfaces significantly increase the transmission coefficient for an adatom exchange involving many coupled degrees of ...
Transition states are among the most important molecular structures in chemistry, critical to a vari...
We present a novel machine learning approach to understanding conformation dynamics of biomolecules....
We discuss a theoretical approach that employs machine learning potential energy surfaces (ML-PESs) ...
We present a method for optimizing transition state theory dividing surfaces with support vector mac...
International audienceComputing accurate rate constants for catalytic events occurring at the surfac...
Implicit solvent models, such as Poisson-Boltzmann models, play important roles in computational stu...
Abstract The adsorption energies of molecular adsorbates on catalyst surfaces are key descriptors in...
This thesis explores the interplay of machine learning and molecular physics, demonstrating how deve...
We present a novel kernel-based machine learning algorithm for identifying the low-dimensional geome...
Predicting the values of the potential energy surface (PES) for a given chemical system is essential...
The reactive chemistry of molecular hydrogen at surfaces, notably dissociative sticking and hydrogen...
We present a systematic approach to reduce the dimensionality of a complex molecular system. Startin...
Abstract—In the last few decades, identification of the transition states has experienced significan...
Surface chemistry is a phenomenon manifesting itself in several key areas; catalysis, materials fabr...
Abstract We present a novel kernel-based machine learning algorithm for identifying the low-dimens...
Transition states are among the most important molecular structures in chemistry, critical to a vari...
We present a novel machine learning approach to understanding conformation dynamics of biomolecules....
We discuss a theoretical approach that employs machine learning potential energy surfaces (ML-PESs) ...
We present a method for optimizing transition state theory dividing surfaces with support vector mac...
International audienceComputing accurate rate constants for catalytic events occurring at the surfac...
Implicit solvent models, such as Poisson-Boltzmann models, play important roles in computational stu...
Abstract The adsorption energies of molecular adsorbates on catalyst surfaces are key descriptors in...
This thesis explores the interplay of machine learning and molecular physics, demonstrating how deve...
We present a novel kernel-based machine learning algorithm for identifying the low-dimensional geome...
Predicting the values of the potential energy surface (PES) for a given chemical system is essential...
The reactive chemistry of molecular hydrogen at surfaces, notably dissociative sticking and hydrogen...
We present a systematic approach to reduce the dimensionality of a complex molecular system. Startin...
Abstract—In the last few decades, identification of the transition states has experienced significan...
Surface chemistry is a phenomenon manifesting itself in several key areas; catalysis, materials fabr...
Abstract We present a novel kernel-based machine learning algorithm for identifying the low-dimens...
Transition states are among the most important molecular structures in chemistry, critical to a vari...
We present a novel machine learning approach to understanding conformation dynamics of biomolecules....
We discuss a theoretical approach that employs machine learning potential energy surfaces (ML-PESs) ...