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Accuracy of reaction coordinate based rate theories for modelling chemical reactions: insights from the thermal isomerization in retinal

under review
  • Modern potential energy surfaces have shifted attention to molecular simulations of chemical reactions. While various methods can estimate rate constants for conformational transitions in molecular dynamics simulations, their applicability to studying chemical reactions remains uncertain due to the high and sharp energy barriers and complex reaction coordinates involved. This study focuses on the thermal cis-trans isomerization in retinal, employing molecular simulations and comparing rate constant estimates based on one-dimensional rate theories with those based on sampling transitions and grid-based models for low-dimensional collective variable spaces. Even though each individual method to estimate the rate passes its quality tests, the rate constant estimates exhibit disparities of up to four orders of magnitude. Rate constant estimates based on one-dimensional reaction coordinates prove challenging to converge, even if the reaction coordinate is optimized. However, consistent estimates of the rate constant are achieved by sampling transitions and by multi-dimensional grid-based models.
Metadaten
Author:Simon Ghysbrecht, Luca DonatiORCiD, Bettina G. KellerORCiD
Document Type:Article
Parent Title (English):Submitted to The Journal of Physical Chemistry A
Year of first publication:2023
ArXiv Id:http://arxiv.org/abs/2312.12948
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