使用meta-MD模拟快速自动识别低屏障反应

M. Rasmussen, Jan H. Jensen
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引用次数: 2

摘要

我们测试了基于元分子动力学(MD)的方法,用于从Grambow等人开发的势垒数据集中提取的单分子和双分子反应中寻找低势垒(<30 kcal/mol)反应(SciPost Chem. 2021, 1,003)(科学数据2020,7,137)。对于单分子反应,meta-MD模拟识别了Grambow等人发现的26种产物中的25种,而随后的半经验筛选消除了另外4种反应,这是由于反应能量或相对于DFT的势垒高度估计过高。此外,我们的方法还发现了Grambow等人没有发现的另外36个反应,其中10个<30 kcal/mol。对于双分子反应,meta-MD模拟识别了Grambow等人发现的20个反应中的19个,而随后的半经验筛选消除了另外一个反应。此外,我们还发现了34个新的低势垒反应。对于双分子反应,我们发现有必要“鼓励”反应物生成以前未发现的产物,在计算偏倚电位时,包括其他MD模拟发现的产物,并减小发生MD的分子腔的大小,直到观察到反应。我们还表明,我们的方法可以找到两种反应的正确产物,这两种反应更能代表合成有机化学中遇到的反应。因此,本研究中使用的meta-MD超参数似乎普遍适用于寻找低屏障反应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fast and automated identification of reactions with low barriers using meta-MD simulations
We test our meta-molecular dynamics (MD) based approach for finding low-barrier (<30 kcal/mol) reactions (SciPost Chem. 2021, 1, 003) on uni- and bimolecular reactions extracted from the barrier dataset developed by Grambow et al. (Scientific Data 2020, 7, 137). For unimolecular reactions the meta-MD simulations identify 25 of the 26 products found by Grambow et al., while the subsequent semiempirical screening eliminates an additional four reactions due to at an overestimation of the reaction energies or estimated barrier heights relative to DFT. In addition, our approach identifies an additional 36 reactions not found by Grambow et al., 10 of which are <30 kcal/mol. For bimolecular reactions the meta-MD simulations identify 19 of the 20 reactions found by Grambow et al., while the subsequent semiempirical screening eliminates an additional reaction. In addition, we find 34 new low-barrier reactions. For bimolecular reactions we found that it is necessary to ”encourage” the reactants to go to previously undiscovered products, by including products found by other MD simulations when computing the biasing potential as well as decreasing the size of the molecular cavity in which the MD occurs, until a reaction is observed. We also show that our methodology can find the correct products for two reactions that are more representative of those encountered in synthetic organic chemistry. The meta-MD hyperparameters used in this study thus appears to be generally applicable to finding low-barrier reactions.
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