伊莫戈石纳米管：稳定性、电子性质和机械性能。

Imogolite nanotubes: stability, electronic, and mechanical properties.

作者信息

Guimarães Luciana, Enyashin Andrey N, Frenzel Johannes, Heine Thomas, Duarte Hélio A, Seifert Gotthard

机构信息

Grupo de Pesquisa em Química Inorgânica Teórica, Departamento de Química-ICEx- Universidade Federal de Minas Gerais, Belo Horizonte, MG, Brazil

出版信息

ACS Nano. 2007 Nov;1(4):362-8. doi: 10.1021/nn700184k.

DOI:10.1021/nn700184k

PMID:19206688

Abstract

The aluminosilicate mineral imogolite is composed of single-walled nanotubes with stoichiometry of (HO)(3)Al(2)O(3)SiOH and occurs naturally in soils of volcanic origin. In the present work we study the stability and the electronic and mechanical properties of zigzag and armchair imogolite nanotubes using the density-functional tight-binding method. The (12,0) imogolite tube has the highest stability of all tubes studied here. Uniquely for nanotubes, imogolite has a minimum in the strain energy for the optimum structure. This is in agreement with experimental data, as shown by comparison with the simulated X-ray diffraction spectrum. An analysis of the electronic densities of states shows that all imogolite tubes, independent on their chirality and size, are insulators.

摘要

硅铝酸盐矿物伊莫石由化学计量比为(HO)(3)Al(2)O(3)SiOH的单壁纳米管组成，天然存在于火山源土壤中。在本工作中，我们使用密度泛函紧束缚方法研究了锯齿形和扶手椅形伊莫石纳米管的稳定性、电子和力学性质。(12,0)伊莫石管在此处研究的所有管中具有最高的稳定性。与其他纳米管不同的是，伊莫石在最佳结构的应变能方面有一个最小值。这与实验数据一致，与模拟的X射线衍射光谱的比较表明了这一点。对态电子密度的分析表明，所有伊莫石管，无论其手性和尺寸如何，都是绝缘体。

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伊莫戈石纳米管：稳定性、电子性质和机械性能。

Imogolite nanotubes: stability, electronic, and mechanical properties.

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伊莫戈石纳米管：稳定性、电子性质和机械性能。

Imogolite nanotubes: stability, electronic, and mechanical properties.

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