Stamped production of single-crystal hexagonal boron nitride monolayers on various insulating substrates.
Fankai ZengRan WangWenya WeiZuo FengQuanlin GuoYunlong RenGuoliang CuiDingxin ZouZhensheng ZhangSong LiuKehai LiuYing FuJinzong KouLi WangXu ZhouZhilie TangFeng DingDapeng YuKai-Hui LiuXiaozhi XuPublished in: Nature communications (2023)
Controllable growth of two-dimensional (2D) single crystals on insulating substrates is the ultimate pursuit for realizing high-end applications in electronics and optoelectronics. However, for the most typical 2D insulator, hexagonal boron nitride (hBN), the production of a single-crystal monolayer on insulating substrates remains challenging. Here, we propose a methodology to realize the facile production of inch-sized single-crystal hBN monolayers on various insulating substrates by an atomic-scale stamp-like technique. The single-crystal Cu foils grown with hBN films can stick tightly (within 0.35 nm) to the insulating substrate at sub-melting temperature of Cu and extrude the hBN grown on the metallic surface onto the insulating substrate. Single-crystal hBN films can then be obtained by removing the Cu foil similar to the stamp process, regardless of the type or crystallinity of the insulating substrates. Our work will likely promote the manufacturing process of fully single-crystal 2D material-based devices and their applications.