源自多孔硅的堆叠硅烷的汉森溶解度参数

Hansen Solubility Parameters of Stacked Silicanes Derived from Porous Silicon.

作者信息

Nakano Hideyuki, Nakamura Daisuke

机构信息

Toyota Central R&D Labs., Inc., 41-1, Yokomichi, Nagakute, Aichi 480-1192, Japan.

出版信息

ACS Omega. 2019 Jul 9;4(7):11838-11843. doi: 10.1021/acsomega.9b01496. eCollection 2019 Jul 31.

DOI:10.1021/acsomega.9b01496

PMID:31460293

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6682101/

Abstract

Exfoliated nanomaterials could spur great interest as a new paradigm in materials science. Therefore, we have sought organic solvents to obtain high-quality two-dimensional nanomaterials and enable their adoption in large-scale applications. However, recent approaches in liquid-phase exfoliation are based on empirical trial-and-error strategies. Here, we show that the dispersibility of stacked silicanes is discussed on the basis of Hansen solubility parameters (HSPs). Using these parameters, we demonstrate that silicanes can be efficiently dispersed in bromonaphthalene and can be exfoliated as individual sheets (1-6 nm in thickness and up to 2 μm in area). During the exfoliation process, the oxidation state of the obtained sheets is affected by the nature of the solvents. Furthermore, HSPs of the stacked silicanes are compared with those of graphene and hydrogen-terminated germanane.

摘要

剥离的纳米材料作为材料科学中的一种新范式可能会引发极大的兴趣。因此，我们一直在寻找有机溶剂以获得高质量的二维纳米材料，并使其能够应用于大规模应用中。然而，最近液相剥离的方法是基于经验性的试错策略。在这里，我们表明基于汉森溶解度参数（HSPs）讨论了堆叠硅烷的分散性。利用这些参数，我们证明硅烷可以有效地分散在溴萘中，并可以剥离成单个薄片（厚度为1-6纳米，面积可达2微米）。在剥离过程中，所得薄片的氧化态受溶剂性质的影响。此外，还将堆叠硅烷的HSPs与石墨烯和氢封端锗烷的HSPs进行了比较。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bb4f/6682101/5d793dd5dc40/ao-2019-01496j_0007.jpg

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源自多孔硅的堆叠硅烷的汉森溶解度参数

Hansen Solubility Parameters of Stacked Silicanes Derived from Porous Silicon.

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