Abstract
Two-dimensional (2D) hexagonal boron nitride (h-BN), which has a similar honeycomb lattice structure to graphene, is promising as a dielectric material for a wide variety of potential applications based on 2D materials. Synthesis of high-quality, large-size and single-crystalline h-BN domains is of vital importance for fundamental research as well as practical applications. In this work, we report the growth of h-BN films on mechanically polished cobalt (Co) foils using plasma-assisted molecular beam epitaxy. Under appropriate growth conditions, the coverage of h-BN layers can be readily controlled by growth time. A large-area, multi-layer h-BN film with a thickness of 5~6 nm is confirmed by Raman spectroscopy, scanning electron microscopy, X-ray photoelectron spectroscopy and transmission electron microscopy. In addition, the size of h-BN single domains is 20~100 μm. Dielectric property of as-grown h-BN film is evaluated by characterization of Co(foil)/h-BN/Co(contact) capacitor devices. Breakdown electric field is in the range of 3.0~3.3 MV/cm, which indicates that the epitaxial h-BN film has good insulating characteristics. In addition, the effect of substrate morphology on h-BN growth is discussed regarding different domain density, lateral size, and thickness of the h-BN films grown on unpolished and polished Co foils.
Highlights
Heterostructures with defect-free interfaces[35], which can bring about new opportunities to develop integrated 2D nanoelectronics, nanophotonics and spintronics[36]
B cell temperature was maintained at 1150 °C; N2 gas flowed at 5 sccm through an electron cyclotron resonance (ECR) source, and NH3 gas at a flow rate of 5 sccm was introduced to the chamber through a needle valve
Wrinkles are evident on the surface, which represent the conformal growth of the film across very rough Co surface with ridges and valleys
Summary
Heterostructures with defect-free interfaces[35], which can bring about new opportunities to develop integrated 2D nanoelectronics, nanophotonics and spintronics[36]. H-BN has been grown on Ni foils by MBE33,34, the growth mechanism remains elusive, no electrical and dielectric properties of those MBE grown h-BN films have been evaluated. We report MBE growth of large-area, multi-layer h-BN films on polished Co foils for the first time. The growth mechanism is discussed based on the effect of substrate surface morphology on h-BN growth, and electrical and dielectric properties are characterized
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