Mechanical and electronic properties of ultrathin nanodiamonds under uniaxial compressions

Xue Jiang; Jijun Zhao; Chunqiang Zhuang

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Mechanical and electronic properties of ultrathin nanodiamonds under uniaxial compressions

机译：单轴压缩下超薄纳米金刚石的机械和电子性能

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Mechanical and electronic properties of ultrathin hydrogenated nanodiamonds (with diameters from 0.71 nm to 1.4 nm) under uniaxial compression have been investigated by means of density functional theory calculations. The computed Young's moduli of nanodiamonds are lower than the bulk value and increase with size, which can be fitted to an empirical function of diameter. Similar to the bulk diamond, the HOMO-LUMO gaps of nanodiamond reduces under uniaxial strain, implying tunable electronic properties via mechanical deformations.

机译：通过密度泛函理论计算，研究了超薄氢化纳米金刚石（直径为0.71 nm至1.4 nm）在单轴压缩下的机械和电子性能。计算得到的纳米金刚石的杨氏模量低于体积值，并随尺寸增加而增加，这可以适合直径的经验函数。类似于块状金刚石，纳米金刚石的HOMO-LUMO间隙在单轴应变下减小，这意味着可通过机械变形实现可调节的电子性能。

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《Diamond and Related Materials》 |2010年第1期|共5页
作者
Xue Jiang; Jijun Zhao; Chunqiang Zhuang;
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正文语种 eng
中图分类电热工业、高温制品工业;
关键词
Nanodiamonds; Young's modulus; Strain; Electronic properties;

机译：纳米金刚石杨氏模量应变电子特性;

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1. Mechanical and electronic properties of ultrathin nanodiamonds under uniaxial compressions [J] . Xue Jiang, Jijun Zhao, Chunqiang Zhuang Diamond and Related Materials . 2010,第1期

机译：单轴压缩下超薄纳米金刚石的机械和电子性能
2. Structural transitions and electronic properties of the ultrathin SiC nanotubes under uniaxial compression [J] . Wang XQ, Wang BL, Zhao JJ, Chemical Physics Letters . 2008,第4a6期

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Mechanical and electronic properties of ultrathin nanodiamonds under uniaxial compressions

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