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Understanding periodic dislocations in 2D supramolecular crystals: The PFP/Ag(111) interface

机译：了解二维超分子晶体中的周期性位错：PFP / Ag（111）界面

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In-plane dislocation networks arise in both inorganic and organic films as a way of relieving the elastic strain that builds up at the substrate interface. In molecule/surface systems, supramolecular interactions are weak and more complex (compared to the atomic bonds in inorganic films), and their interplay with molecule-substrate interactions is very subtle, making it difficult to single out the driving force for a nanoscale dislocation pattern. On the basis of a combined experimental and theoretical work, we here show that periodic dislocations in a molecular PFP film are mainly driven by the optimization of molecule-substrate interactions. Compared to inorganic networks however, it implies a much lower energy imbalance, allowing a thermally induced transition from a low-energy strain dislocation pattern to a high-energy incommensurate moiré. © 2012 American Chemical Society.

机译：平面位错网络同时出现在无机膜和有机膜中，是减轻在基板界面处累积的弹性应变的一种方式。在分子/表面系统中，超分子相互作用较弱且更复杂（与无机膜中的原子键相比），并且它们与分子-底物相互作用的相互作用非常微妙，从而难以为纳米级位错图案选择出驱动力。在结合实验和理论工作的基础上，我们在这里表明分子PFP膜中的周期性位错主要是由分子-底物相互作用的优化驱动的。但是，与无机网络相比，它意味着更低的能量失衡，允许热诱导从低能应变位错模式过渡到高能不相称的莫尔条纹。 ©2012美国化学学会。

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Goiri Elizabeth; García-Lastra J. M.; Corso M.; Abd El-Fattah Z. M.; Ortega J. Enrique; Oteyza D. G. de;
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年度 2014
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1. Understanding Periodic Dislocations in 2D Supramolecular Crystals: The PFP/Ag(111) Interface [J] . E. Goiri, J. M. García-Lastra, M. Corso Journal of physical chemistry letters . 2012,第7期

机译：了解二维超分子晶体中的周期性位错：PFP / Ag（111）界面
2. Model system for the study of 2D phase transitions and supramolecular interactions at electrified interfaces: Hydrogen-assisted reductive desorption of catechol-derived adlayers from Pt(111) single-crystal electrodes [J] . Rodriguez-Lopez M, Rodes A, Berna A, Langmuir: The ACS Journal of Surfaces and Colloids . 2008,第7期

机译：用于研究带电界面上的二维相变和超分子相互作用的模型系统：邻苯二酚衍生的Pt（111）单晶电极的氢辅助还原解吸
3. Dislocation network with pair-coupling structure in {111} γ/γ′ interface of Ni-based single crystal superalloy [J] . Yi Ru, Shusuo Li, Jian Zhou, Scientific reports. . 2016,第1期

机译：Ni基单晶高温合金的{111}γ/γ′界面的成对耦合位错网络
4. 2D nanostructures and 3D silicide nanocrystallites at rare-earth metal/Si(111) interfaces: formation mechanism and properties [C] . T. V. Krachino, M. V. Kuzmin, M. V. Loginov, Conference on Physics, Chemistry and Application of Nanostructures . 2001

机译：稀土金属/ Si（111）界面的2D纳米结构和3D硅化物纳米晶体：形成机制和性能
5. Structural, electrical characterization and simulation of periodic misfit dislocation arrays localized at the gallium antimonide/gallium arsenide interface [D] . Jallipalli, Anitha 2008

机译：位于锑化镓/砷化镓界面的周期性错配位错阵列的结构，电学表征和模拟
6. Dislocation network with pair-coupling structure in {111} γ/γ′ interface of Ni-based single crystal superalloy [O] . Yi Ru, Shusuo Li, Jian Zhou, -1

机译：Ni基单晶高温合金的{111}γ/γ′界面的成对耦合位错网络
7. Understanding Periodic Dislocations in 2D Supramolecular Crystals: The PFP/Ag(111) Interface [O] . Goiri E., García Lastra Juan Maria, Corso M., 2012

机译：理解2D超分子晶体中的周期性位错：pFp / ag（111）界面

Understanding periodic dislocations in 2D supramolecular crystals: The PFP/Ag(111) interface

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