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采用基于密度泛函理论的第一性原理平面波超软赝势方法,计算了纤锌矿型AlN中引入不同电荷态的N空位和Al空位时结构中最大局域化Wannier函数,并根据Wannier函数的空间分布及空间分布的几何中心位置,对空位引起的晶体电子结构变化及[0001],[ˉ1010],[ˉ12ˉ10]晶向上的自发极化进行了研究.结果表明,利用最大局域化Wannier函数分析电子结构具有直观的特点,清晰地表明N—Al键具有较强的离子性.研究发现,N空位结构中悬挂键上电荷向空位处转移,而Al空位结构中悬挂键上电荷则远离空位,沿悬挂键方向移动到N原子一侧.同时发现,空位的引入破坏了[ˉ1010],[ˉ12ˉ10]晶向上的中心对称结构,产生了极化,且极化强度随着空位电荷态的增加而增大.在[0001]晶向上,随着N空位电荷态的增加,空位周围电子结构发生了剧烈变化,使得自发极化发生了逆转,极化强度随着电荷态的增加而增大;而在Al空位中,随着电荷态的增加,自发极化沿原方向显著增加,但没有发生极化反转. 相似文献
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为了对GaN/AlN异质结电子结构有更为深入的认识,采用超原胞模型,对其进行了基于密度泛函理论的第一性原理计算.结果发现GaN/AlN为突变同型异质结,价带顶带阶为0.62eV,与实验值很接近.通过使用常用的平均键能法、平均势法和芯态法三种近似方法对GaN/AlN带阶的计算,比较得出,超原胞法虽然计算量较大,但能够给出异质结界面附近更为详细的信息,这一点其他三种近似方法无法得到,但他们也能够得出与实验值基本一致的带阶参量. 相似文献
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This paper reports that nanoporous AlN particles are synthesized
from solid-state metathesis reactions using AlCl3 and
Mg3N2 as reactants. The samples are characterized by x-ray
diffraction (XRD), transmission electron microscopy (TEM), selected
area electron diffraction, high-resolution transmission electron
microscopy (HRTEM), ultraviolet--visible (UV--vis) absorption
spectroscopy and Raman spectroscopy. The results show that
samples with walls 10 nm in thickness and pores between 10 nm and
100 nm in diameter were produced successfully from these reactions, and
their band gap and vibration modes agree with those of AlN bulk
crystal. 相似文献
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Electronic and structural properties of N-vacancy in AlN nanowires: A first-principles study 下载免费PDF全文
The stability and electronic structures of AlN nanowires with and without N-vacancy are investigated using firstprinciples calculations.We find that there is an inverse correlation between formation energy and diameter in ideal AlN nanowires.After calculating the formation energies of N-vacancy at different sites in AlN nanowires with different diameters,we find that the N-vacancy prefers to stay at the surface of the nanowires and it is easier to fabricate them under Al-rich conditions.Through studying the electronic properties of AlN nanowires with N-vacancies,we further find that there are two isolated bands in the deep part of the band gap,one of them is fully occupied and the other is half occupied.The charge density indicates that the half-fully occupied band arises from the Al at the surface,and this atom becomes an active centre. 相似文献
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