Chenliang Li, Jing Guo, Chao-ying Wang, D. Ma, Baolai Wang
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引用次数: 2
摘要
在二维Janus材料中,不对称的表面终止结构可以显著增强材料的功能性。在这里,我们探讨了表面终止成分和无序对Janus ti 3 C 2 F x n O2-x (x = 0.5, 1,或1.5,n = 1 - 3)的电子和力学性能的综合影响。由于表面Ti和O原子之间的相互作用相对较强,表面O原子组成的增加导致弱C-p-Ti-d耦合;而与纯F端结构相比,F在混合表面端结构中的存在显著提高了C-p-Ti-d耦合强度。不对称无序表面功能化影响电子结构,创造可控的力学性能。混合表面终止导致弹性常数显著提高。Janus ti3c2f10结构具有优异的柔性,临界应变为31%,在实际大应变工程中特别有用。我们的研究结果为调整二维材料的电子和机械性能提供了一种策略。
Two-Dimensional Janus Ti 3C 2F xO 2-X MXene with Tunable Electronic and Mechanical Properties
Abstract In two-dimensional (2D) Janus materials, the asymmetric surface termination structure can significantly enhance material functionality. Here we explore the combined influence of surface termination composition and disorder on the electronic and mechanical properties of Janus T i 3 C 2 F x n O2-x (x = 0.5, 1, or 1.5, n = 1–3). Increasing compositions of surface O atoms induce weak C-p-Ti-d coupling due to a relatively strong interaction between the surface Ti and O atoms; while the presence of F in the mixed surface termination considerably enhances the C-p-Ti-d coupling strength compared with a purely F-terminated structure. Asymmetric disordered surface functionalization influences electronic structure, creating controllable mechanical properties. Mixed surface termination leads to a significant enhancement in the elastic constant. Janus Ti3C2F1O configuration is found to possess superior flexibility, with 31% critical strain, especially useful in practical large-magnitude-strain engineering. Our results provide a strategy to tune the electronic and mechanical properties of 2D materials.
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