Superlubricity-activated thinning of graphite flakes compressed by passivated crystalline silicon substrates for graphene exfoliation

Amir Shakouri; Jingjie Yeo; Teng Yong Ng

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Superlubricity-activated thinning of graphite flakes compressed by passivated crystalline silicon substrates for graphene exfoliation

机译：钝化的结晶硅基质压缩的石墨薄片的超润滑活化稀化，用于石墨烯剥落

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A special thinning phenomenon is observed through molecular dynamics, where compression of AB-stacked graphite flakes between two hydrogen-terminated silicon substrates leads to the exfoliation of graphene layers. We have used multiple molecular dynamics simulations to study how this thinning phenomenon is affected by parameters such as size, number of graphene layers, and the crystalline orientation of the substrate surface. It is shown that this thinning phenomenon occurs through the activation of an inter-layer superlubricity regime, caused by torque-induced spontaneous rotations of the layers which are initiated by in-plane shear modes of graphite during compression.

机译：通过分子动力学观察到一种特殊的变薄现象，其中AB堆叠的石墨薄片在两个氢封端的硅基板之间的压缩导致石墨烯层的剥落。我们已经使用多个分子动力学模拟来研究这种变薄现象如何受到参数（例如大小，石墨烯层数和基材表面的晶体取向）的影响。结果表明，这种变薄现象是由于层间超润滑状态的激活而发生的，该层间超润滑状态是由压缩过程中石墨的面内剪切模式引发的，由扭矩引起的层的自发旋转引起的。

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《Carbon: An International Journal Sponsored by the American Carbon Society》 |2014年第null期|共7页
作者
Amir Shakouri; Jingjie Yeo; Teng Yong Ng;
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正文语种 eng
中图分类非金属元素及其无机化合物化学工业;化学;非金属材料;第Ⅳ族非金属元素及其无机化合物;
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1. Superlubricity-activated thinning of graphite flakes compressed by passivated crystalline silicon substrates for graphene exfoliation [J] . Amir Shakouri, Jingjie Yeo, Teng Yong Ng Carbon: An International Journal Sponsored by the American Carbon Society . 2014,第Null期

机译：钝化的结晶硅基质压缩的石墨薄片的超润滑活化稀化，用于石墨烯剥落
2. One step electrochemical exfoliation of natural graphite flakes into graphene oxide for polybenzimidazole composite membranes giving enhanced performance in high temperature fuel cells [J] . Chen Jianuo, Perez-Page Maria, Ji Zhaoqi, Journal of power sources . 2021,第Apra15期

机译：天然石墨的一步电化学剥落将聚苯苯胺咪唑复合膜的石墨烯薄片剥落，在高温燃料电池中提高性能
3. The Electrical Property of Large Few Layer Graphene Flakes Obtained by Microwaves Assisted Exfoliation of Expanded Graphite [J] . Azhar A. Pirzado, Guillaume Dalmas, Lam Nguyen-Dinh, Current Microwave Chemistry . 2016,第2期

机译：微波辅助剥落膨胀石墨获得的少量几层石墨烯薄片的电性能
4. CRYSTALLINE SILICON THIN-FILM SOLAR CELLS ON GRAPHITE OR SIC-CERAMIC SUBSTRATES [C] . T. Kunz, I. Burkert, N. Gawehns, European Photovoltaic Solar Energy Conference . 2008

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5. Ultra-Thin Aluminium Oxide Tunnel Layer Passivated Contact for High-Efficiency Crystalline Silicon Solar Cells [D] . Zheng, Xin. 2018

机译：超薄铝氧化铝隧道层钝化接触，用于高效晶体硅太阳能电池
6. Growth of Hexagonal Columnar Nanograin Structured SiC Thin Films on Silicon Substrates with Graphene–Graphitic Carbon Nanoflakes Templates from Solid Carbon Sources [O] . Xingfang Liu, Guosheng Sun, Bin Liu, 2013

机译：固碳源的石墨烯-石墨碳纳米薄片模板在硅基底上生长六方柱状纳米晶结构的SiC薄膜
7. Growth of Hexagonal Columnar Nanograin Structured SiC Thin Films on Silicon Substrates with Graphene–Graphitic Carbon Nanoflakes Templates from Solid Carbon Sources [O] . Wanshun Zhao, Lei Wang, Lixin Tian, 2013

机译：利用固体碳源石墨烯 - 石墨碳纳米薄片模板在硅衬底上生长六方柱状纳米晶结构siC薄膜

Superlubricity-activated thinning of graphite flakes compressed by passivated crystalline silicon substrates for graphene exfoliation

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