Lattice modulation strategies for 2D material assisted epitaxial growth

IF 13.4 2区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY
Qi Chen, Kailai Yang, Meng Liang, Junjie Kang, Xiaoyan Yi, Junxi Wang, Jinmin Li, Zhiqiang Liu
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引用次数: 0

Abstract

As an emerging single crystals growth technique, the 2D-material-assisted epitaxy shows excellent advantages in flexible and transferable structure fabrication, dissimilar materials integration, and matter assembly, which offers opportunities for novel optoelectronics and electronics development and opens a pathway for the next-generation integrated system fabrication. Studying and understanding the lattice modulation mechanism in 2D-material-assisted epitaxy could greatly benefit its practical application and further development. In this review, we overview the tremendous experimental and theoretical findings in varied 2D-material-assisted epitaxy. The lattice guidance mechanism and corresponding epitaxial relationship construction strategy in remote epitaxy, van der Waals epitaxy, and quasi van der Waals epitaxy are discussed, respectively. Besides, the possible application scenarios and future development directions of 2D-material-assisted epitaxy are also given. We believe the discussions and perspectives exhibited here could help to provide insight into the essence of the 2D-material-assisted epitaxy and motivate novel structure design and offer solutions to heterogeneous integration via the 2D-material-assisted epitaxy method.

Graphical Abstract

Abstract Image

Abstract Image

Abstract Image

二维材料辅助外延生长的晶格调制策略。
作为一种新兴的单晶生长技术,2D材料辅助外延在柔性和可转移结构制造、异质材料集成和物质组装方面表现出优异的优势,为新型光电子和电子学的发展提供了机会,为下一代集成系统的制备开辟了道路。研究和理解二维材料辅助外延中的晶格调制机制,有利于其实际应用和进一步发展。在这篇综述中,我们概述了各种2D材料辅助外延的巨大实验和理论发现。分别讨论了远程外延、范德华外延和准范德华外延中的晶格引导机制和相应的外延关系构建策略。此外,还给出了二维材料辅助外延可能的应用场景和未来的发展方向。我们相信,这里展示的讨论和观点有助于深入了解2D材料辅助外延的本质,激发新的结构设计,并通过2D材料辅助磊晶方法为异质集成提供解决方案。
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来源期刊
Nano Convergence
Nano Convergence Engineering-General Engineering
CiteScore
15.90
自引率
2.60%
发文量
50
审稿时长
13 weeks
期刊介绍: Nano Convergence is an internationally recognized, peer-reviewed, and interdisciplinary journal designed to foster effective communication among scientists spanning diverse research areas closely aligned with nanoscience and nanotechnology. Dedicated to encouraging the convergence of technologies across the nano- to microscopic scale, the journal aims to unveil novel scientific domains and cultivate fresh research prospects. Operating on a single-blind peer-review system, Nano Convergence ensures transparency in the review process, with reviewers cognizant of authors' names and affiliations while maintaining anonymity in the feedback provided to authors.
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