Novel findings deduced from the microscopic kinetics model contest the classical nucleation theory

Frontiers in Soft Matter Pub Date : 2023-04-27 DOI:10.3389/frsfm.2023.1143168

Jun Xu

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Abstract

In this study, we revisit the microscopic kinetics model considering crystal nucleation as reversible attachment and detachment of units from growing clusters. Based on the variation of the rate constants of attaching and detaching with cluster size, we derive some findings that contest the classical nucleation theory. First, the equivalent thermodynamic parameters are deduced from the rate constants, which reveal that the interfacial free energy per area varies with cluster size and finally levels off. Second, if the crystal is not perfect, at the melting point, the nucleation barrier will be definite rather than infinitely large. Third, it is predicted that the critical nuclei size does not vary with supersaturation. Fourth, when the neighboring units from the same polymer chain are used for crystal nucleation, the attaching rate constant should decrease with cluster size, which is distinctly different from the same attaching rate constant in the nucleation of small molecular crystals. These interesting findings show that teaching the old dog (the microscopic kinetics model) new tricks could lead to new findings and deepen our understanding of crystal nucleation.

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从微观动力学模型推导出的新发现挑战了经典的成核理论

在这项研究中，我们重新审视微观动力学模型考虑晶体成核作为可逆的附着和脱离单位从生长的簇。基于簇大小对成核速率常数的影响，我们得到了一些与经典成核理论相矛盾的结果。首先，由速率常数推导出等效热力学参数，结果表明，每面积界面自由能随团簇大小而变化，最终趋于平稳。第二，如果晶体不完美，在熔点，成核势垒将是确定的，而不是无限大的。第三，预测临界核的大小不随过饱和度的变化而变化。第四，当使用同一聚合物链上的相邻单元进行晶体成核时，其成核速率常数会随着簇的大小而减小，这与小分子晶体成核时相同的成核速率常数有明显不同。这些有趣的发现表明，教授老狗(微观动力学模型)新的技巧可能会导致新的发现，并加深我们对晶体成核的理解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Frontiers in Soft Matter

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