揭示液体-基底波动对晶体生长和二维材料无序超均匀性的影响

arXiv - PHYS - Computational Physics Pub Date : 2024-09-18 DOI:arxiv-2409.12090

S. K. Mkhonta, Zhi-Feng Huang, K. R. Elder

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引用次数: 0

摘要

我们利用与原子长度和扩散时间尺度相关的相场晶体模型，研究了二维（2D）晶体在波动表面上的生长。最近的实验在液体基底上实现了前所未有的大尺寸高质量二维晶体的快速生长，受此激励，我们发现了液体表面对微结构排序的新影响。我们发现，基底波动产生的短程噪声加快了覆盖层的结晶和晶粒生长，其速度超过了三立体系。与液态基底波动的耦合还能调节局部随机性，从而产生具有隐性空间秩序的奇妙无序结构，即无序超均匀性。这些结果揭示了二维晶体在液面上快速生长的物理机制，并展示了合成无序超均匀薄膜结构的新策略。

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Uncovering liquid-substrate fluctuation effects on crystal growth and disordered hyperuniformity of two-dimensional materials

We investigate the growth of two-dimensional (2D) crystals on fluctuating surfaces using a phase field crystal model that is relevant on atomic length and diffusive time scales. Motivated by recent experiments which achieved unprecedented fast growth of large-size high-quality 2D crystals on liquid substrates, we uncover novel effects of liquid surfaces on microstructural ordering. We find that substrate fluctuations generate short-ranged noise that speeds up crystallization and grain growth of the overlayer, surpassing that of free-standing system. Coupling to the liquid substrate fluctuations can also modulate local randomness, leading to intriguing disordered structures with hidden spatial order, i.e., disordered hyperuniformity. These results reveal the physical mechanisms underlying the fast growth of 2D crystals on liquid surfaces and demonstrate a novel strategy for synthesizing disordered hyperuniform thin film structures.

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arXiv - PHYS - Computational Physics

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