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本文采用分子动力学模拟方法研究了Si表面间单壁水平碳纳米管束SWCNT (10,10)的变形和摩擦特性.系统在弛豫平衡后,首先对碳纳米管束施加压力至碳纳米管或Si表面结构破坏.之后在无压力和高压力两种情况下使上表面沿水平方向做剪切运动以研究碳纳米管束的摩擦特性.结果表明,由于碳纳米管的柔韧性,碳纳米管束在加载过程中出现明显变形,但直至3.8 GPa高压下并无结构破坏.系统无压力时SWCNT (10,10)在原地轻微随机滚动,压力为3.8 GPa时,碳纳米管束出现了整体的轻微滑动,同时伴随无规律的轻微滚动,关键词:碳纳米管束摩擦分子动力学模拟 相似文献
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The effects of intertube additional atoms on the sliding behaviors of double-walled carbon nanotubes(DWCNTs) are investigated using molecular dynamics(MD) simulation method.The interaction between carbon atoms is modeled using the second-generation reactive empirical bond-order potential coupled with the Lennard-Jones potential.The simulations indicate that intertube additional atoms of DWCNT can significantly enhance the load transfer between neighboring tubes of DWCNT.The improvement in load transfer is guaranteed by the addition of intertube atoms which are covalently bonded to the inner and outer tubes of DWCNT.The results also show that the sliding behaviors of DWCNT are strongly dependent of additional atom numbers.The results presented here demonstrate that the superior mechanical properties of DWCNT can be realized by controlling intertube coupling.The general conclusions derived from this work may be of importance in devising high-performance CNT composites. 相似文献
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The effects of intertube additional atoms on the sliding behaviors of double-walled carbon nanotubes (DWCNTs) are investigated using molecular dynamics (MD) simulation method. The interaction between carbon atoms is modeled using the second-generation reactive empirical bond-order potential coupled with the Lennard-Jones potential. The simulations indicate that intertube additional atoms of DWCNT can significantly enhance the load transfer between neighboring tubes of DWCNT. The improvement in load transfer is guaranteed by the addition of intertube atoms which are covalently bonded to the inner and outer tubes of DWCNT. The results also show that the sliding behaviors of DWCNT are strongly dependent of additional atom numbers. The results presented here demonstrate that the superior mechanical properties of DWCNT can be realized by controlling intertube coupling. The general conclusions derived from this work may be of importance in devising high-performance CNT composites. 相似文献
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硅纳米颗粒在碳纳米管表面生长的分子动力学模拟 总被引:1,自引:0,他引:1
采用分子动力学模拟方法研究了硅纳米颗粒在碳纳米管上的生长,并分析了这种复合材料的基本结构.研究表明,由于硅原子和碳纳米管之间的相互作用以及碳纳米管的巨大的表面曲率,硅原子在碳纳米管表面不是形成覆盖碳纳米管的二维薄膜,而是生成具有三维结构的硅纳米颗粒.小纳米颗粒的结构和无基底条件下生成的颗粒结构基本一致.对于大纳米颗粒,不同于无基底条件下形成的球状纳米晶体硅结构,硅纳米颗粒沿管轴方向伸长,其结构为类似于硅晶体的无定形网络结构.关键词:纳米颗粒碳纳米管硅分子动力学模拟 相似文献
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In biological water channel aquaporins (AQPs), it is believed that the bipolar orientation of the single-file water molecules inside the channel blocks proton permeation but not water transport. In this paper, the water permeation and particularly the water-selective behaviour across a single-walled carbon nanotube (SWNT) with two partial charges adjacent to the wall of the SWNT are studied by molecular dynamics simulations, in which the distance between the two partial charges is varied from 0.14 nm to 0.5 nm and the charges each have a quantity of 0.5 e. The two partial charges are used to mimic the charge distribution of the conserved non-pseudoautosomal (NPA) (asparagine/proline/alanine) regions in AQPs. Compared with across the nanochannel in a system with one +1 ε charge, the water permeation across the nanochannel is greatly enhanced in a system with two +0.5 e charges when charges are close to the nanotube, i.e. the two partial charges permit more rapid water diffusion and maintain better bipolar order along the water file when the distance between the two charges and the wall of SWNT is smaller than about 0.05 nm. The bipolar orientation of the single-file water molecules is crucial for the exclusion of proton transfer. These findings may serve as guidelines for the future nanodevices by using charges to transport water and have biological implications because membrane water channels share a similar single-file water chain and positive charged region at centre and provide an insight into why two residues are necessitated in the central region of water channel protein. 相似文献
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碳纳米管-硅纳米线复合结构的形成和热稳定性 总被引:3,自引:0,他引:3
通过分子动力学方法模拟了在碳纳米管内填充一定数目的半导体元素硅形成碳纳米管-硅纳米线复合结构的过程,并采用Lindemann指数研究了这种复合结构的热稳定性.计算结果表明,当考虑碳纳米管和硅纳米线轴向方向的周期性边界条件之后,在C(13,0)和C (14,0)碳纳米管内能够形成亚稳结构的硅纳米线Si16NW和Si20NW,从而获得一种碳纳米管-硅纳米线的新型复合结构.通过计算这种复合结构的Lindemann指数,可以看到由于碳纳米管的保护作用,碳纳米管包裹的硅纳关键词:复合结构纳米线碳纳米管分子动力学 相似文献
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采用TLHT势和经典分子动力学方法研究了稀有气体原子(He,Ne,Ar,Kr,Xe)进入带缺陷的单壁纳米碳管(SWCNT)的动力学过程,计算出了稀有气体原子分别从管壁和管口入射时,它们能封装在SWCNT中的能量阈值Ek0,并与理想结构情形做了比较.结果表明:随着管壁缺陷半径r的增加,Ek0减小;当r<4.5 ?时,给定合适的初始动能,稀有气体原子能封装在纳米碳管中;而r=4.5 ?时,稀有气体原子不能封装在碳管中,且此时缺陷对Ar,Kr和Xe的输运特性有很大影响.关键词:纳米碳管缺陷稀有气体原子分子动力学模拟 相似文献
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采用TLHT势和经典分子动力学方法研究了稀有气体原子进入单壁纳米碳管(SWCNT)的动力学过程,计算得出SWCNT能吸入稀有气体原子(He,Ne,Ar,Kr,Xe)的管径阈值r0分别为6.3 ?,7.0 ?,8.6 ?,8.6 ?,8.6 ?,同时计算了对应的每种稀有气体原子能封装在不同管径的SWCNT中的最大初始动能Ek0.计算给出有趣的结果是封装在纳米碳管中的稀有气体原子在管中不停地作周期性振荡,振荡周期与原子进入管中的能量无关,振幅与原子进入管中的能量有关,即振幅随着入射能量的增加而增加.分析表明:给定合适类型的碳管,具有很小初始动能的稀有气体原子可在碳管中稳定的周期性振荡,其振荡频率可达GHz. 相似文献
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Due to structural effects, mechanically buckled tubes may exhibit negative stiffness (NS). The NS composites, formed by embedding the NS and positive‐stiffness (PS) phases, have been shown to exhibit exceptional enhancements in their effective stiffness and viscoelastic damping. Through molecular dynamics simulation with the first‐generation Tersoff–Brenner interatomic potential, we studied the composite system of the buckled (5,5) carbon nanotube (CNT), negative stiffness provider, being compressed laterally with a carbon fullerene (Cx) for x = 20, 60, 100, and 540. It was found the CNT‐Cx system showed about 10 N/m for its spring constant in the linear range. When x = 20, 60, and 100, after reaching maximum loading, applied total force vs. lateral compression showed plateau‐type behavior due to a series of local buckling, indicating it is a low‐energy cost process to revert a buckled nanotube to an unbuckled state with the creation of local buckling. When x = 540, hardening‐type force–displacement relationship was observed due to the interplay between the NS and PS phases. For all of the four cases, the effective stiffness along the loading direction was negative for large lateral compression since the buckled CNT provided more negative stiffness than the positive stiffness in the fullerene. 相似文献
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The influence of chirality on the thermal conductivity of single-walled carbon nanotubes(SWNTs) is discussed in this paper, using a non-equilibrium molecular dynamics(NEMD) method. The tube lengths of the SWNTs studied here are 20, 50, and 100 nm, respectively, and at each length the relationship between chiral angle and thermal conductivity of a SWNT is revealed. We find that if the tube length is relatively short, the influence of chirality on the thermal conductivity of a SWNT is more obvious and that a SWNT with a larger chiral angle has a greater thermal conductivity. Moreover, the thermal conductivity of a zigzag SWNT is smaller than that of an armchair one. As the tube length becomes longer, the thermal conductivity increases while the influence of chirality on the thermal conductivity decreases. 相似文献
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In this paper, single-walled carbon nanotubes (SWCNTs) are studied through molecular dynamics (MD) simulation. The simulations are performed at temperatures of 1 and 300K separately, with atomic interactions characterized by the second Reactive Empirical Bond Order (REBO) potential, and temperature controlled by a certain thermostat, i.e. by separately using the velocity scaling, the Berendsen scheme, the Nose-Hoover scheme, and the generalized Langevin scheme. Results for a (5,5) SWCNT with a length of 24.5 nm show apparent distortions in nanotube configuration, which can further enter into periodic vibrations, except in simulations using the generalized Langevin thermostat, which is ascribed to periodic boundary conditions used in simulation. The periodic boundary conditions may implicitly be applied in the form of an inconsistent constraint along the axis of the nanotube. The combination of the inconsistent constraint with the cumulative errors in calculation causes the distortions of nanotubes. When the generalized Langevin thermostat is applied, inconsistently distributed errors are dispersed by the random forces, and so the distortions and vibrations disappear. This speculation is confirmed by simulation in the case without periodic boundary conditions, where no apparent distortion and vibration occur. It is also revealed that numerically induced distortions and vibrations occur only in simulation of nanotubes with a small diameter and a large length-to-diameter ratio. When MD simulation is applied to a system with a particular geometry, attention should be paid to avoiding the numerical distortion and the result infidelity. 相似文献
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We have studied the thermal conductivity of single-walled carbon nanotubes (SWCNTs) using the NEMD method. The results indicate
that the thermal conductivity values are not profoundly influenced by the specific simulation-technique used in the MD simulations.
Some possible reasons, which could be responsible for the discrepancy on thermal conductivity values of SWCNTs in the literatures,
are discussed.
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采用经典分子动力学方法模拟一定直径[111]晶向的硅纳米线填充不同扶手椅型单壁碳纳米管复合结构的加热过程, 通过可视化和能量分析的方法判断复合结构中硅纳米线和碳纳米管的热稳定性. 通过讨论碳纳米管的空间限制作用和分子间相互作用力的关系, 对碳纳米管和硅纳米线的热稳定性变化进行初步解释. 研究发现碳纳米管中硅纳米线的热稳定性和碳纳米管的直径关系密切: 当管径较小时, 硅纳米线的热稳定性有所提高, 当管径增大到一定大小时, 硅纳米线的热稳定性会突然显著地下降, 直到硅纳米线与管壁不存在分子间相互作用力, 硅纳米线的热稳定性才会恢复. 而硅纳米线填充到碳纳米管中对碳纳米管的热稳定性有着明显的降低作用. 相似文献
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使用分子动力学方法研究几种不同半径尺寸的单壁碳纳米管组成的双壁碳管,预测了其初始稳定构型;分析了其自由弛豫阶段的特征;并模拟了它们在轴向压缩载荷作用下的屈曲行为;研究了不同层间距导致的范德华力变化对屈曲行为的影响.采用Tersoff-Brenner势描述单壁碳纳米管内原子间作用,Lennard-Jones势描述内外层间的范德华相互作用.计算结果表明:在通常意义下的双壁管间距(约0.34 nm)外还可以存在稳定的双壁碳管构型,并且这些新的稳定构型表现出了不同的力学性质.关键词:双壁碳纳米管分子动力学屈曲 相似文献
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采用拉伸分子动力学方法研究了单壁碳纳米管(8, 8)在室温下从硅基板上被剥离的过程.当碳纳米管(CNT)在硅基底上被剥离时, 剥离距离和理想弹簧所测平均剥离力之间呈现一定规律的关系曲线,并出现了较大的正、负峰值. 比较了不同剥离速度下的平均剥离力,并拟合了其峰值与速度的关系. 拉伸分子动力学模拟结果显示,所需剥离力的最大值与速度之间呈现一定的线性关系, 模拟结果同生物物理学上类似的剥离实验结果符合较好,但相比于高分子, CNT和硅(Si)组成的界面吸附性能更强.讨论了碳纳米管长度、 半径及缺陷对剥离过程的影响,研究表明:所需最大的剥离力与CNT的长度无关, 但随CNT半径的增加,需要的最大剥离力线性增加; 5-7-7-5缺陷对剥离力最大值影响较小,而半径变化缺陷会削减最大剥离力. 在原子尺度对未来的试验进行了理论预测,为碳纳米管在硅微电子工业中的应用提供了理论基础. 相似文献
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The detection of macromolecular conformation is particularly important in many physical and biological applications. Here we theoretically explore a method for achieving this detection by probing the electricity of sequential charged segments of macromolecules. Our analysis is based on molecular dynamics simulations, and we investigate a single file of water molecules confined in a half-capped single-walled carbon nanotube (SWCNT) with an external electric charge of +e or ?e (e is the elementary charge). The charge is located in the vicinity of the cap of the SWCNT and along the centerline of the SWCNT. We reveal the picosecond timescale for the re-orientation (namely, from one unidirectional direction to the other) of the water molecules in response to a switch in the charge signal, ?e → +e or +e → ?e. Our results are well understood by taking into account the electrical interactions between the water molecules and between the water molecules and the external charge. Because such signals of re-orientations can be magnified and transported according to Tu et al. [2009 Proc. Natl. Acad. Sci. USA 106 18120], it becomes possible to record fingerprints of electric signals arising from sequential charged segments of a macromolecule, which are expected to be useful for recognizing the conformations of some particular macromolecules. 相似文献