Critical island-size, stability, and morphology of 2D colloidal Au nanoparticle islands

Hubartt Bradley C.; Amar Jacques G.

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Critical island-size, stability, and morphology of 2D colloidal Au nanoparticle islands

机译：2D胶态金纳米粒子岛的临界岛大小，稳定性和形态

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The critical island-size, stability, and morphology of 2D colloidal Au nanoparticle islands formed during drop-drying are studied using an empirical potential which takes into account core-core, ligand-ligand, and ligand-solvent interactions. Good agreement with experiment is obtained for the dependence of the critical island-size on nanoparticle diameter. Our results for the critical length-scale for smoothing via edge-diffusion are also consistent with the limited facet size and island-relaxation observed in experiments. In addition, the relatively high rate of monomer diffusion on an island as well as the low barrier for interlayer diffusion are consistent with experimental observations that second-layer growth does not occur until after the first layer is complete. (C) 2015 AIP Publishing LLC.

机译：利用经验潜能研究了在液滴干燥过程中形成的2D胶体金纳米粒子岛的临界岛尺寸，稳定性和形态，该经验将核心-核心，配体-配体和配体-溶剂之间的相互作用考虑在内。对于临界岛尺寸对纳米颗粒直径的依赖性，与实验获得了良好的一致性。我们通过边缘扩散进行平滑处理的临界长度尺度的结果也与实验中观察到的有限的刻面大小和岛松弛相关。另外，单体在岛上的相对较高的扩散速率以及层间扩散的低阻挡层与实验观察结果一致，即实验观察到直到第一层完成后第二层才发生生长。（C）2015 AIP Publishing LLC。

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《The Journal of Chemical Physics》 |2015年第2期|共8页
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Hubartt Bradley C.; Amar Jacques G.;
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Critical island-size, stability, and morphology of 2D colloidal Au nanoparticle islands

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