Theoretical study of alkali-atom insertion into small-radius carbon nanotubes to form single-atom chains - art. no. 085420

Yang JL.; Chan CT.; Liu HJ.

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Theoretical study of alkali-atom insertion into small-radius carbon nanotubes to form single-atom chains - art. no. 085420

机译：碱原子插入小半径碳纳米管以形成单原子链的理论研究-艺术。没有。 085420

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Using first-principles total energy calculations, we found that the doping of Li into (6,0) nanotubes has no insertion barrier if the tube mouth is passivated. The diffusion barrier is extremely small inside the nanotube, and Li atoms prefer to reside along the tube axis. The reaction is strongly exothermic. The Li-Li interaction inside the nanotube is repulsive but strongly screened. These results point to the possibility of realizing a truly one-dimensional atomic wire inside certain small-radius nanotubes that are fabricated inside zeolite channels if Li is used as dopant, but other elements like K would not serve the purpose. [References: 17]

机译：使用第一性原理的总能量计算，我们发现如果管口被钝化，将Li掺杂到（6,0）纳米管中没有插入障碍。纳米管内部的扩散势垒非常小，Li原子更喜欢沿管轴驻留。该反应强烈放热。纳米管内部的Li-Li相互作用具有排斥性，但受到强烈屏蔽。这些结果表明，如果将Li用作掺杂剂，则可以在沸石通道内部制造的某些小半径纳米管内实现真正的一维原子线，但其他元素（如K）将无法达到目的。 [参考：17]

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《Physical Review, B. Condensed Matter》 |2001年第8期|共1页
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Yang JL.; Chan CT.; Liu HJ.;
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1. Theoretical study of alkali-atom insertion into small-radius carbon nanotubes to form single-atom chains - art. no. 085420 [J] . Yang JL., Chan CT., Liu HJ. Physical Review, B. Condensed Matter . 2001,第8期

机译：碱原子插入小半径碳纳米管以形成单原子链的理论研究-艺术。没有。 085420
2. Theoretical study of structure-dependent Coulomb blockade in carbon nanotubes - art. no. 045404 [J] . Feng YQ., Zhang RQ., Chan KS., Physical Review, B. Condensed Matter . 2002,第4期

机译：碳纳米管中依赖结构的库仑阻滞的理论研究-艺术。没有。 045404
3. Ultimate strength of carbon nanotubes: A theoretical study - art. no. 144105 [J] . Zhao QZ., Nardelli MB., Bernholc J. Physical Review, B. Condensed Matter . 2002,第14期

机译：碳纳米管的极限强度：一项理论研究-艺术。没有。 144105
4. Study of Geometries and Electronic Properties of Pd and Pd-Ni alloy chains on Single-Walled Carbon Nanotubes [C] . Ling Miao, Venkat R. Bhethanabotla, Babu Joseph International Symposium on Runaway Reactions, Pressure Relief Design and Effluent Handling American Institute of Chemical Engineers/American Chemical Society Management Conference . 2005

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6. Helical Multi-walled Carbon Nanotubes as an Efficient Material for the Dispersive Solid-Phase Extraction of Low and High Molecular Weight Polycyclic Aromatic Hydrocarbons from Water Samples: Theoretical Study [O] . Monika Paszkiewicz, Celina Sikorska, Danuta Leszczyńska, -1

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Theoretical study of alkali-atom insertion into small-radius carbon nanotubes to form single-atom chains - art. no. 085420

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