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Pseudo-Hydrogen Passivation: A Novel Way to Calculate Absolute Surface Energy of Zinc Blende (111)/(¯1 ¯1 ¯1) Surface

机译：伪氢钝化：一种计算锌共混物（111）/（´1¯1¯1）表面绝对表面能的新方法

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Determining accurate absolute surface energies for polar surfaces of semiconductors has been a great challenge in decades. Here, we propose pseudo-hydrogen passivation to calculate them, using density functional theory approaches. By calculating the energy contribution from pseudo-hydrogen using either a pseudo molecule method or a tetrahedral cluster method, we obtained (111)/ surfaces energies of Si, GaP, GaAs, and ZnS with high self-consistency. This method quantitatively confirms that surface energy is determined by the number and the energy of dangling bonds of surface atoms. Our findings may greatly enhance the basic understandings of different surfaces and lead to novel strategies in the crystal growth.

机译：几十年来，为半导体的极性表面确定准确的绝对表面能一直是一个巨大的挑战。在这里，我们提出使用密度泛函理论方法对拟氢钝化进行计算。通过使用拟分子方法或四面体簇方法计算拟氢的能量贡献，我们获得了具有高自洽性的Si，GaP，GaAs和ZnS的（111）/表面能。该方法定量地证实了表面能由表面原子的悬挂键的数量和能量决定。我们的发现可能会大大增强对不同表面的基本理解，并导致晶体生长的新策略。

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期刊名称 Scientific Reports
作者
Yiou Zhang; Jingzhao Zhang; Kinfai Tse; Lun Wong; Chunkai Chan; Bei Deng; Junyi Zhu;
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年(卷),期 -1(6),-1
年度 -1
页码 20055
总页数 7
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1. Pseudo-Hydrogen Passivation: A Novel Way to Calculate Absolute Surface Energy of Zinc Blende (111)/(?1 ?1 ?1) Surface [J] . Yiou Zhang, Jingzhao Zhang, Kinfai Tse, Scientific reports. . 2016,第期

机译：伪氢钝化：一种计算锌混合物绝对表面能的新方法（111）/（β- 1 β- 1 αs表面
2. Surface states and surface stability in half-metallic systems: the cases of zinc-blende-structure MnSb {111}A, {111}B and {001} [J] . Mollet S, Jenkins SJ Journal of Physics. Condensed Matter . 2007,第31期

机译：半金属体系中的表面状态和表面稳定性：闪锌矿型MnSb {111} A，{111} B和{001}的情况
3. Half-metallicity of (001), (110) and (111) surfaces of zinc-blende MnBi and their interfaces with HgTe: A first-principle investigation [J] . Jabbar M. Khalaf Al-zyadi, Nihaya H. Abdul-Wahhab, Kai-Lun Yao Journal of magnetism and magnetic materials . 2018,第JANa期

机译：闪锌矿型MnBi的（001），（110）和（111）表面的半金属及其与HgTe的界面：第一性原理研究
4. Passive Diurnal and Yearly Solar Energy Control Applied hrough Calculated Building Surface Exposure at Various Latitudes. [C] . Jason CHARALAMBIDES, Joseph WRIGHT International Conference on Sustainable Design and Construction . 2012

机译：被动昼夜和年度太阳能控制在各种纬度下施加了阶层计算的建筑面曝光。
5. Accurate, calculated electronic, transport, and structural properties of zinc-blende and wurtzite zinc sulphide (ZnS). [D] . Khamala, Bethuel. 2014

机译：闪锌矿和纤锌矿硫化锌（ZnS）的准确，计算的电子，输运和结构特性。
6. Electronic and Structural Differences between Wurtzite and Zinc Blende InAs Nanowire Surfaces: Experiment and Theory [O] . Martin Hjort, Sebastian Lehmann, Johan Knutsson, -1

机译：纤锌矿和锌共混物InAs纳米线表面之间的电子和结构差异：实验和理论
7. Pseudo-Hydrogen Passivation_A Novel Way to Calculate Absolute Surface Energy of Zinc Blende (111) Surface [O] . Zhang, Yiou, Zhang, Jingzhao, Tse, Kinfai, 2015

机译：伪氢钝化 - 一种计算绝对表面的新方法闪锌矿（111）表面的能量
8. SURFACE TOPOGRAPHY OF SINGLE CRYSTALS OF FACE- CENTERED-CUBIC, BODY-CENTERED-CUBIC, SODIUM CHLORIDE, DIAMOND, AND ZINC-BLENDE STRUCTURES [R] . Robert J. Bacigalupi 1964

机译：单中心 - 立方体，体中心 - 立方体，氯化钠，金刚石和锌 - 共结构单晶的表面形貌

Pseudo-Hydrogen Passivation: A Novel Way to Calculate Absolute Surface Energy of Zinc Blende (111)/(¯1 ¯1 ¯1) Surface

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