Publication date: August–September 2018
Source:Journal of Crystal Growth, Volumes 496–497
Author(s): Amin Azizi, Mohammed Abu AlSaud, Nasim Alem
Two-dimensional (2D) hexagonal boron nitride (h -BN) is a fascinating material for variety of applications such as graphene-based devices, transparent/bendable electronics, and deep ultraviolet emitters. However, its technological applications are contingent upon tunable and scalable growth. Here, we demonstrate reproducible and tunable growth of high-quality h -BN crystals on Cu via chemical vapor deposition (CVD) through a precise control of the BN precursor’s flow during growth. We present synthesis of both epitaxially-grown triangular flakes and large-area continuous films with tunable thickness ranging from monolayer to 11-layer thick. Using a combination of electron microscopy imaging, spectroscopy, and diffraction analysis, we thoroughly study morphology, thickness, chemistry, grain size, and atomic structure of the grown h -BN crystals. This study could pave the way for developing controlled and reproducible growth of high-quality h -BN crystals with tunable thickness and morphology.
Source:Journal of Crystal Growth, Volumes 496–497
Author(s): Amin Azizi, Mohammed Abu AlSaud, Nasim Alem
