Fine Tuning of the Rotational Speed of Light-Driven, Second-Generation Molecular Motors by Fluorine Substitution

IF 4.6 2区化学 Q2 CHEMISTRY, PHYSICAL The Journal of Physical Chemistry Letters Pub Date : 2025-04-14 DOI:10.1021/acs.jpclett.5c00408

Ivan Tambovtsev, Yorick L. A. Schmerwitz, Gianluca Levi, Darina D. Darmoroz, Pavel V. Nesterov, Tetiana Orlova, Hannes Jónsson

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Abstract

The elementary steps in the rotation of several second-generation molecular motors are analyzed by finding the minimum energy path between the metastable and stable states and evaluating the transition rate within harmonic transition state theory based on energetics obtained from density functional theory. Comparison with published experimental data shows remarkably good agreement and demonstrates the predictive capability of this approach. While previous measurements by Feringa and co-workers have shown that a replacement of the hydrogen atom at the stereogenic center by a fluorine atom can slow down the rate-limiting thermal helix inversion (THI) step by raising the energy of the transition state, even to the extent that the backreaction in the ground state becomes preferred in some cases, we find that a replacement of a CH₃ group by CF₃ at the same site accelerates the THI by elevating the energy of the metastable state without affecting the transition state significantly. Since these two fluorine substitutions have an opposite effect on the rate of the THI, the combination of both can provide ways to fine-tune the rotational speed of molecular motors.

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用氟取代对第二代光驱动分子马达转速的微调

基于密度泛函理论的能量学，通过寻找亚稳态和稳定态之间的最小能量路径和计算谐波跃迁态理论中的跃迁速率，分析了几种第二代分子马达旋转的基本步骤。与已发表的实验数据的比较表明，该方法具有良好的一致性，证明了该方法的预测能力。虽然Feringa和他的同事们之前的测量表明，在立体中心用氟原子取代氢原子可以通过提高过渡态的能量来减缓限制速率的热螺旋反转（THI）步骤，甚至在某些情况下基态的反反应更受欢迎。我们发现，在同一位点用CF3取代CH3基团可以通过提高亚稳态的能量来加速THI，而不会显著影响过渡态。由于这两种氟取代对THI的速率有相反的影响，两者的结合可以提供微调分子马达转速的方法。

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来源期刊

The Journal of Physical Chemistry Letters CHEMISTRY, PHYSICAL-NANOSCIENCE & NANOTECHNOLOGY

CiteScore

9.60

自引率

7.00%

发文量

1519

审稿时长

1.6 months

期刊介绍： The Journal of Physical Chemistry (JPC) Letters is devoted to reporting new and original experimental and theoretical basic research of interest to physical chemists, biophysical chemists, chemical physicists, physicists, material scientists, and engineers. An important criterion for acceptance is that the paper reports a significant scientific advance and/or physical insight such that rapid publication is essential. Two issues of JPC Letters are published each month.