Chemical reactions are ubiquitous in both materials and the biophysical sciences. While coarse-grained (CG) molecular dynamics simulations are often needed to study the spatiotemporal scales present in these fields, chemical reactivity has not been explored thoroughly in CG models. In this work, a new approach to model chemical reactivity is presented for the widely used Martini CG Martini model. Employing tabulated potentials with a single extra particle for the angle dependence, the model provides a generic framework for capturing bonded topology changes using nonbonded interactions. As a first example application, the reactive model is used to study the macrocycle formation of benzene-1,3-dithiol molecules through the formation of disulf...
In this thesis, a comprehensive range of applications for the reactive molecular dynamics method Mu...
ReaxFF MD (Reactive Force Field Molecular Dynamics) is a promising method for investigating complex ...
Modeling reactivity in chemical systems has evolved dramatically in line with the capabilities of mo...
Chemical reactions are ubiquitous in both materials and the biophysical sciences. While coarse-grain...
We present a general approach to isolate chemical reaction mechanism as an independently controllabl...
We have developed a methodology for including effects of chemical reactions in coarse-grained comput...
An algorithm capable of incorporating multi-step reaction mechanisms into atomistic molecular dynami...
This article presents the application of the reactive step molecular dynamics simulation method [M. ...
The coarse-grained Martini force field is widely used in biomolecular simulations. Here we present t...
The recent re-parametrization of the Martini coarse-grained force field, Martini 3, improved the acc...
We present a general approach to isolate chemical reaction mechanism as an independently controllabl...
The possibility of observing chemical reactions in ab initio molecular dynamics runs is severely hin...
We report a molecular modeling paradigm to describe silica polymerization reactions in aqueous solut...
Thesis (Ph.D.)--University of Washington, 2015The study of chemical reactions is a foundation of che...
Coarse-Grained (CG) models provide a promising direction to study variety of chemical systems at a r...
In this thesis, a comprehensive range of applications for the reactive molecular dynamics method Mu...
ReaxFF MD (Reactive Force Field Molecular Dynamics) is a promising method for investigating complex ...
Modeling reactivity in chemical systems has evolved dramatically in line with the capabilities of mo...
Chemical reactions are ubiquitous in both materials and the biophysical sciences. While coarse-grain...
We present a general approach to isolate chemical reaction mechanism as an independently controllabl...
We have developed a methodology for including effects of chemical reactions in coarse-grained comput...
An algorithm capable of incorporating multi-step reaction mechanisms into atomistic molecular dynami...
This article presents the application of the reactive step molecular dynamics simulation method [M. ...
The coarse-grained Martini force field is widely used in biomolecular simulations. Here we present t...
The recent re-parametrization of the Martini coarse-grained force field, Martini 3, improved the acc...
We present a general approach to isolate chemical reaction mechanism as an independently controllabl...
The possibility of observing chemical reactions in ab initio molecular dynamics runs is severely hin...
We report a molecular modeling paradigm to describe silica polymerization reactions in aqueous solut...
Thesis (Ph.D.)--University of Washington, 2015The study of chemical reactions is a foundation of che...
Coarse-Grained (CG) models provide a promising direction to study variety of chemical systems at a r...
In this thesis, a comprehensive range of applications for the reactive molecular dynamics method Mu...
ReaxFF MD (Reactive Force Field Molecular Dynamics) is a promising method for investigating complex ...
Modeling reactivity in chemical systems has evolved dramatically in line with the capabilities of mo...