| Literature DB >> 28266795 |
Junhua Meng1,2, Xingwang Zhang1,2, Ye Wang1,2, Zhigang Yin1,2, Heng Liu1,2, Jing Xia3, Haolin Wang1,2, Jingbi You1,2, Peng Jin1,2, Denggui Wang1,2, Xiang-Min Meng3.
Abstract
Atomically thin hexagonal boron nitride (h-BN) is gaining significant attention for many applications such as a dielectric layer or substrate for graphene-based devices. For these applications, synthesis of high-quality and large-area h-BN layers with few defects is strongly desirable. In this work, the aligned growth of millimeter-size single-crystal h-BN domains on epitaxial Ni (111)/sapphire substrates by ion beam sputtering deposition is demonstrated. Under the optimized growth conditions, single-crystal h-BN domains up to 0.6 mm in edge length are obtained, the largest reported to date. The formation of large-size h-BN domains results mainly from the reduced Ni-grain boundaries and the improved crystallinity of Ni film. Furthermore, the h-BN domains show well-aligned orientation and excellent dielectric properties. In addition, the sapphire substrates can be repeatedly used with almost no limit. This work provides an effective approach for synthesizing large-scale high-quality h-BN layers for electronic applications.Entities:
Keywords: aligned growth; epitaxy; hexagonal boron nitride; ion beam sputtering deposition; single-crystal domains
Year: 2017 PMID: 28266795 DOI: 10.1002/smll.201604179
Source DB: PubMed Journal: Small ISSN: 1613-6810 Impact factor: 13.281