First-principles study of interaction of lithium atoms with (3, 3) carbon nanotubes

机译：第一原理研究锂原子与（3,3）碳纳米管的相互作用研究

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In this paper, we have employed first-principles calculations to investigate the adsorption mechanisms of one lithium atom on the sidewalls of 1/2/3 H-adsorbed indefective/defective (3, 3) single-wall carbon nanotubes (CNTs) which have vacancy defects. Our calculations are performed within density functional theory (DFT) under the generalized gradient approximation (GGA) of Perdew, Burke, and Ernzerhof (PBE). Our results show that the lithium atoms strongly binds to the H-adsorbed (3, 3) nanotube. Lithium atoms can chemically adsorb on (3, 3) nanotube with the vacancy defect (MVD) without any energy barrier. The lithium adsorption will enhance the electrical conductivity of the nanotube. Furthermore, the structure of the (3, 3) nanotube with the MVD and hydrogen atoms will become more stable after the three kinds of lithium adsorption.

机译：在本文中，我们采用了第一原理计算来研究一种侧壁上的1 / 2/3 H-吸附的缺陷/缺陷（3,3）单壁碳纳米管（CNT）的侧壁上的一种锂原子的吸附机制空位缺陷。我们的计算在普通型，Burke和Ernzerhof（PBE）的广义梯度近似（GGA）下的密度函数理论（DFT）内进行。我们的结果表明，锂原子与H吸附（3,3）纳米管粘合强烈结合。锂原子可以在没有任何能量屏障的空间缺陷（MVD）上的（3,3）纳米管上化学吸附。锂吸附将增强纳米管的电导率。此外，在三种锂吸附后，具有MVD和氢原子的（3,3）纳米管的结构将变得更稳定。

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《International Conference on Manufacturing Technology and Electronics Applications》|2014年||共4页
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Shunfu Xu; Lingmin Li;
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中图分类 TH16-53;
关键词
First-principles calculation; Lithium atom; Carbon nanotube; Adsorption energy; Vacancy defect;

机译：第一原理计算;锂原子;碳纳米管;吸附能量;空位缺陷;

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4. First-principles study of interaction of lithium atoms with (3, 3) carbon nanotubes [C] . Shunfu Xu, Lingmin Li International Conference on Manufacturing Technology and Electronics Applications . 2014

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5. First -principles study of the interaction between atoms, small molecules and carbon nanotubes: Electronic and catalytic properties [D] . Chen, Li 2008

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First-principles study of interaction of lithium atoms with (3, 3) carbon nanotubes

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