From free-energy profiles to activation free energies
2022-08-24
Johannes C. B. Dietschreit, Dennis J. Diestler, Andreas Hulm, Christian Ochsenfeld, and Rafael Gómez-Bombarell
J. Chem. Phys. 157, 084113, 2022
Given a chemical reaction going from reactant (R) to the product (P) on a potential energy surface (PES) and a collective variable (CV) discriminating between R and P, we define the free-energy profile (FEP) as the logarithm of the marginal Boltzmann distribution of the CV. This FEP is not a true free energy. Nevertheless, it is common to treat the FEP as the “free-energy” analog of the minimum potential energy path and to take the activation free energy, , as the difference between the maximum at the transition state and the minimum at R. We show that this approximation can result in large errors. The FEP depends on the CV and is, therefore, not unique. For the same reaction, different discriminating CVs can yield different . We derive an exact expression for the activation free energy that avoids this ambiguity. We find to be a combination of the probability of the system being in the reactant state, the probability density on the dividing surface, and the thermal de Broglie wavelength associated with the transition. We apply our formalism to simple analytic models and realistic chemical systems and show that the FEP-based approximation applies only at low temperatures for CVs with a small effective mass. Most chemical reactions occur on complex, high-dimensional PES that cannot be treated analytically and pose the added challenge of choosing a good CV. We study the influence of that choice and find that, while the reaction free energy is largely unaffected, is quite sensitive.
Speaker: Prof. Dr. Thomas Carell
Ludwig-Maximilians-Universität München
Institut für Chemische Epigenetik (ICEM)
Department of Chemistry
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Management: Dr. Nada Raddaoui
Institute for Chemical Epigenetics Munich (ICEM)
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Secretary: Birgit Carell
Institute for Chemical Epigenetics Munich (ICEM)
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LMU Munich
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LMU Munich
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LMU Munich
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