Issue 13, 2024

Atomic engineering of two-dimensional materials via liquid metals

Abstract

Two-dimensional (2D) materials, known for their distinctive electronic, mechanical, and thermal properties, have attracted considerable attention. The precise atomic-scale synthesis of 2D materials opens up new frontiers in nanotechnology, presenting novel opportunities for material design and property control but remains challenging due to the high expense of single-crystal solid metal catalysts. Liquid metals, with their fluidity, ductility, dynamic surface, and isotropy, have significantly enhanced the catalytic processes crucial for synthesizing 2D materials, including decomposition, diffusion, and nucleation, thus presenting an unprecedented precise control over material structures and properties. Besides, the emergence of liquid alloy makes the creation of diverse heterostructures possible, offering a new dimension for atomic engineering. Significant achievements have been made in this field encompassing defect-free preparation, large-area self-aligned array, phase engineering, heterostructures, etc. This review systematically summarizes these contributions from the aspects of fundamental synthesis methods, liquid catalyst selection, resulting 2D materials, and atomic engineering. Moreover, the review sheds light on the outlook and challenges in this evolving field, providing a valuable resource for deeply understanding this field. The emergence of liquid metals has undoubtedly revolutionized the traditional nanotechnology for preparing 2D materials on solid metal catalysts, offering flexible possibilities for the advancement of next-generation electronics.

Graphical abstract: Atomic engineering of two-dimensional materials via liquid metals

Article information

Article type
Review Article
Submitted
29 Mar 2024
First published
07 Jun 2024

Chem. Soc. Rev., 2024,53, 7158-7201

Atomic engineering of two-dimensional materials via liquid metals

L. Li, Q. Zhang, D. Geng, H. Meng and W. Hu, Chem. Soc. Rev., 2024, 53, 7158 DOI: 10.1039/D4CS00295D

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