Molecular Dynamic Simulation Study of AFM Single-Wall Carbon Nanotube Tip-Surface Interactions

机译：AFM单壁碳纳米管尖端相互作用的分子动态仿真研究

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Carbon nanotubes (CNTs) represent ideal Atomic Force Microscope (AFM) tip materials due to their remarkable mechanical properties. Dynamic interactions of a Single-wall Carbon nanotube (SWCNT) indenting towards a monocrystalline hydrogen-free Silicon surface (001) are investigated using molecular dynamic simulation. The critical strain and strain force along the axis of the tube from elastic to plastic regimes are calculated. The simulation shows the deform process in elastic regimes is similar to the process of two ends inward compressed. The atoms of nanotube tip adsorption to the Silicon surface has been observed in the plastic regimes. The mechanical microprocess of AFM's single-wall Carbon nanotube tip and Silicon surface interactions from elastic to plastic regimes can be well comprehended from the view of nanoscale energetic evolution.

机译：碳纳米管（CNT）代表理想的原子力显微镜（AFM）尖端材料由于其显着的机械性能。使用分子动态模拟研究了缩进朝向单晶无硅表面（001）的单壁碳纳米管（SWCNT）的动态相互作用。计算沿着管轴的临界应变和应变力从弹性到塑料制度。仿真显示弹性方案中的变形过程类似于向内压缩的两个端部的过程。已经在塑料制度中观察到纳米管尖端吸附到硅表面的原子。 AFM单壁碳纳米管尖端的机械微处理和从弹性到塑料制度的硅表面相互作用可以从纳米尺度的大能进化的视野中得到很好的理解。

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《International Conference on Precision Engineering and Micro/Nano Technology in Asia》|2007年||共5页
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Y.C. Liang; J.H. Dou; Q.S. Bai;
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正文语种
中图分类技术测量方法;
关键词
Carbon nanotube; Atomic force microscope; Molecular dynamic simulation;

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Molecular Dynamic Simulation Study of AFM Single-Wall Carbon Nanotube Tip-Surface Interactions

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