成核
过饱和度
分子动力学
电解质
化学物理
蒙特卡罗方法
产量(工程)
经典成核理论
溶解度
热力学
统计物理学
化学
材料科学
物理化学
计算化学
物理
统计
数学
电极
作者
Xinyi Li,J. R. Schmidt
标识
DOI:10.1021/acs.jctc.9b00743
摘要
We have developed a hybrid grand canonical Monte Carlo/molecular dynamics (GCMC/MD) method for simulating the nucleation of weak electrolytes in an explicit solvent. In contrast to brute-force MD simulation, the approach is capable of efficiently simulating the nucleation of dilute solutions while including the atomistic influence of the surrounding solvent and provides access to the full nucleation free energy surface and associated nucleation free energy barrier. After validating the method against a simple model system, we applied the approach to the nucleation of a low-solubility rock-salt structure in liquid water. We find that the calculated nucleation barriers, in conjunction with analytic rate theories, yield predicted nucleation rates that are in excellent agreement with brute-force MD simulations of the supersaturated solution. We anticipate possible applications of this approach to a wide variety of related weak electrolytes, including CaCO3, zeolites, and metal-organic frameworks.
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