Computational NQR study of a boron nitride nanocone

Mahmoud Mirzaei; Azita Nouri; Masoud Giahi

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Computational NQR study of a boron nitride nanocone

机译：氮化硼纳米锥的计算NQR研究

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The electronic structure of a boron nitride nanocone with 240° disclination, and some properties that derive from this structure, were studied by density-functional theory calculations. In the considered model there are only hexagonal rings, with the apex and mouth of the nanocone saturated by hydrogen atoms. The model was optimized, and then the nuclear quadrupole resonance parameters were calculated at the sites of ~(11)B and ~(14)N nuclei. The results revealed that the nuclei in the boron nitride nanocone are divided into layers with similar electronic properties. The nuclei at the apex and mouth are very important for the electronic behavior of the nanocone, with ~(11)B playing the major role.

机译：通过密度泛函理论计算研究了氮化硼纳米锥具有240°错位的电子结构，以及从该结构衍生出的一些特性。在考虑的模型中，只有六边形环，纳米锥的顶点和嘴被氢原子饱和。优化模型，然后在〜（11）B和〜（14）N核位置计算核四极共振参数。结果表明，氮化硼纳米锥中的核被分为具有相似电子特性的层。顶点和嘴部的原子核对于纳米锥的电子行为非常重要，〜（11）B起主要作用。

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《Monatshefte fur Chemie》 |2010年第3期|共3页
作者
Mahmoud Mirzaei; Azita Nouri; Masoud Giahi;
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正文语种 eng
中图分类化学;
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Electronic structure; Electric field gradient; Nuclear quadrupole resonance; Density-functional theory;

机译：电子结构电场梯度核四极共振密度泛函理论;

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1. Computational NQR study of a boron nitride nanocone [J] . Mahmoud Mirzaei, Azita Nouri, Masoud Giahi, Monatshefte für Chemie / Chemical Monthly . 2010,第3期

机译：氮化硼纳米锥的计算NQR研究
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Computational NQR study of a boron nitride nanocone

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