2019
DOI: 10.1002/jcc.25809
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Extracting the mechanisms and kinetic models of complex reactions from atomistic simulation data

Abstract: Determining reaction mechanisms and kinetic models, which can be used for chemical reaction engineering and design, from atomistic simulation is highly challenging. In this study, we develop a novel methodology to solve this problem. Our approach has three components: (1) a procedure for precisely identifying chemical species and elementary reactions and statistically calculating the reaction rate constants; (2) a reduction method to simplify the complex reaction network into a skeletal network which can be us… Show more

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Cited by 26 publications
(31 citation statements)
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“…Since reactive MD simulation tracks all chemical reactions in real time, one can even deduce the rate constants for individual reactions from a single MD trajectory by statistical analysis. We extracted the ten most statistically significant reactions from the trajectory and calculated their rate constants based on the algorithms developed in previous studies 50,51 . As shown in Supplementary Table 2, most of the rate constants agree well with the GRI_Mech data 48 .…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…Since reactive MD simulation tracks all chemical reactions in real time, one can even deduce the rate constants for individual reactions from a single MD trajectory by statistical analysis. We extracted the ten most statistically significant reactions from the trajectory and calculated their rate constants based on the algorithms developed in previous studies 50,51 . As shown in Supplementary Table 2, most of the rate constants agree well with the GRI_Mech data 48 .…”
Section: Discussionmentioning
confidence: 99%
“…Both networks use the ResNet architecture 75 . The size of the embedding network was set to (25,50,100) and the size of the embedding matrix was set to 12. The size of the fitting network is set to (240, 240, 240).…”
Section: Methodsmentioning
confidence: 99%
“…However, computationally severe storing and time constraints permitting to obtain myriads of “on-the-fly trajectories” require a great effort toward the aim of generating realistic reactive kinetic data: this in spite of the fact that a wide research activity has been pursued, aiming at developing techniques capable of accurately predicting kinetic reaction rate constants from molecular dynamics simulations. Among examples that have been tackled in recent years, we cite (Pomerantz et al, 2005; Coutinho et al, 2015a; Döntgen et al, 2015; Fleming et al, 2016; Wu et al, 2019) and references therein. However, calculation of reaction rate constants has been limited by the arduous procedures both to accurately characterize reactive activated complexes of many body systems and to overcome the inherent difficulties of producing a number of trajectories with statistical consistency and reasonable completeness in the filling of the dynamically relevant parts of the phase-space.…”
Section: Additional and Final Remarksmentioning
confidence: 99%
“…Changes in the connectivity are then interpreted as reactions. 6,40,[68][69][70] A related approach monitors changes in the bond order matrix. 71-73…”
Section: State-to-state Networkmentioning
confidence: 99%