| Literature DB >> 28165713 |
Sumit Beniwal1, James Hooper2, Daniel P Miller3, Paulo S Costa1, Gang Chen4, Shih-Yuan Liu4, Peter A Dowben1, E Charles H Sykes5, Eva Zurek3, Axel Enders1,6.
Abstract
A strategy to synthesize a 2D graphenic but ternary monolayer containing atoms of carbon, nitrogen, and boron, h-BCN, is presented. The synthesis utilizes bis-BN cyclohexane, B2N2C2H12, as a precursor molecule and relies on thermally induced dehydrogenation of the precursor molecules and the formation of an epitaxial monolayer on Ir(111) through covalent bond formation. The lattice mismatch between the film and substrate causes a strain-driven periodic buckling of the film. The structure of the film and its corrugated morphology is discussed based on comprehensive data from molecular-resolved scanning tunneling microscopy imaging, X-ray photoelectron spectroscopy, low-energy electron diffraction, and density functional theory. First-principles calculations further predict a direct electronic band gap that is intermediate between gapless graphene and insulating h-BN.Entities:
Keywords: 2D; 2D material; BCN; STM; bis-BN cyclohexane; boron nitride; graphene
Year: 2017 PMID: 28165713 DOI: 10.1021/acsnano.6b08136
Source DB: PubMed Journal: ACS Nano ISSN: 1936-0851 Impact factor: 15.881