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Influence of Vacancy Defect on Surface Feature and Adsorption of Cs on GaN(0001) Surface

机译：空位缺陷对GaN（0001）表面特征和Cs吸附的影响

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The effects of Ga and N vacancy defect on the change in surface feature, work function, and characteristic of Cs adsorption on a (2 × 2) GaN(0001) surface have been investigated using density functional theory with a plane-wave ultrasoft pseudopotential method based on first-principles calculations. The covalent bonds gain strength for Ga vacancy defect, whereas they grow weak for N vacancy defect. The lower work function is achieved for Ga and N vacancy defect surfaces than intact surface. The most stable position of Cs adatom on Ga vacancy defect surface is at T1 site, whereas it is at BGa site on N vacancy defect surface. The E ads of Cs on GaN(0001) vacancy defect surface increases compared with that of intact surface; this illustrates that the adsorption of Cs on intact surface is more stable.

机译：利用密度泛函理论和平面波超软pseudo势方法研究了Ga和N空位缺陷对（2×2）GaN（0001）表面上表面特征，功函数和Cs吸附特性变化的影响基于第一性原理的计算。共价键对Ga空位缺陷增强强度，而对N空位缺陷增强。与完整表面相比，Ga和N空位缺陷表面的功函数较低。 Cs原子在Ga空位缺陷表面上最稳定的位置是在T1处，而在N空位缺陷表面的BGa位处。与完整表面相比，GaN（0001）空位缺陷表面上的Cs的E ad增加；这说明完整表面上Cs的吸附更为稳定。

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期刊名称 other
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Yanjun Ji; Yujie Du; Meishan Wang;
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年(卷),期 -1(2014),-1
年度 -1
页码 490853
总页数 6
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1. Influence of Vacancy Defect on Surface Feature and Adsorption of Cs on GaN(0001) Surface [J] . YanjunJi, YujieDu, MeishanWang ScientificWorldJournal . 2014,第3期

机译：空位缺损对GaN（0001）表面Cs表面特征及其吸附的影响
2. Comparative study of adsorption characteristics of Cs on the GaN (0001) and GaN (000(1)) surfaces [J] . Du Yu-Jie, Chang Ben-Kang, Wang Hong-Gang, 中国物理：英文版 . 2012,第006期

机译：Cs在GaN（0001）和GaN（000（1））表面上的吸附特性的比较研究
3. Oxygen adsorption and incorporation at irradiated GaN(0001) and GaN(0001) surfaces: First-principles density-functional calculations [J] . Qiang Sun, Annabella Selloni, T. H. Myers, Physical review. B, Condensed Matter And Materials Physics . 2006,第19期

机译：氧在GaN（0001）和GaN（0001）表面上的吸附和结合：第一性原理密度泛函计算
4. Surface properties for hydrogen, carbon, and oxygen adsorption on the Ga-terminated (0001) GaN surface system with nitrogen vacancy [C] . Sung-Ho Lee, Yong-Chae Chung International Microprocesses and Nanotechnology Conference . 2007

机译：具有氮空缺的GA封端（0001）GaN表面系统对氢气，碳和氧气吸附的表面性质
5. The relationship between surface defects and surface reaction pathways on defective molybdenum sulfide(0001) single crystal surfaces. [D] . Wiegenstein, Christopher G. 1999

机译：缺陷的硫化钼（0001）单晶表面上的表面缺陷与表面反应路径之间的关系
6. Modeling the Non-Equilibrium Process of the Chemical Adsorption of Ammonia on GaN(0001) Reconstructed Surfaces Based on Steepest-Entropy-Ascent Quantum Thermodynamics [O] . Akira Kusaba, Guanchen Li, Michael R. von Spakovsky, 2017

机译：基于最陡熵上升量子热力学模拟氨在GaN（0001）重构表面上化学吸附的非平衡过程
7. Influence of Vacancy Defect on Surface Feature and Adsorption of Cs on GaN(0001) Surface [O] . Yanjun Ji, Yujie Du, Meishan Wang 2014

机译：空位缺损对GaN（0001）表面Cs表面特征及其吸附的影响
8. Theoretical Study of Hydrogen Adsorption on the GaN(0001) Surface. [R] . V. M. Bermudez 2004

机译：GaN（0001）表面吸氢的理论研究。

Influence of Vacancy Defect on Surface Feature and Adsorption of Cs on GaN(0001) Surface

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