van der Waals Gap Engineering of Emergent Two-Dimensional Materials

IF 14 Q1 CHEMISTRY, MULTIDISCIPLINARY
Zejun Li, Zhi Zhang, Jiong Lu
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引用次数: 0

Abstract

Layered materials bound by weak van der Waals (vdW) interactions offer a rich platform for exploring intriguing fundamental science in the two-dimensional (2D) limit and advancing technological innovations. Transition from bulk to 2D geometry results in profound alterations in electronic structures and crystallographic symmetries, giving rise to a plethora of novel physical effects and functionalities. Due to their atomic-scale thinness, 2D materials with a high specific surface area enable post-processing chemical modification of their basal planes to further regulate their intrinsic physical properties. Moreover, the interfacial effects induced by surface modifications can modulate properties without altering the original lattice, facilitating the emergence of novel electronic phases and exotic quantum phenomena. Consequently, extensive research is delving into surface modifications of 2D materials, paving the way to further expand the research fields of 2D materials.

Abstract Image

新兴二维材料的范德瓦耳斯间隙工程
以弱范德华(vdW)相互作用为约束的层状材料为探索二维(2D)极限中有趣的基础科学和推动技术创新提供了一个丰富的平台。从体几何到二维几何的转变会导致电子结构和晶体学对称性的深刻变化,从而产生大量新的物理效应和功能。具有高比表面积的二维材料因其原子尺度的薄度,可对其基底面进行后处理化学修饰,从而进一步调节其内在物理性质。此外,表面改性引起的界面效应可以在不改变原始晶格的情况下调节特性,从而促进新型电子相和奇异量子现象的出现。因此,对二维材料表面改性的广泛研究,为进一步拓展二维材料的研究领域铺平了道路。
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CiteScore
17.70
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