| Literature DB >> 26344032 |
Chan Su Jung1, Fazel Shojaei2, Kidong Park1, Jin Young Oh1, Hyung Soon Im1, Dong Myung Jang1, Jeunghee Park1, Hong Seok Kang3.
Abstract
Graphene-like two-dimensional (2D) nanostructures have attracted significant attention because of their unique quantum confinement effect at the 2D limit. Multilayer nanosheets of GaS-GaSe alloy are found to have a band gap (Eg) of 2.0-2.5 eV that linearly tunes the emission in red-to-green. However, the epitaxial growth of monolayers produces a drastic increase in this Eg to 3.3-3.4 eV, which blue-shifts the emission to the UV region. First-principles calculations predict that the Eg of these GaS and GaSe monolayers should be 3.325 and 3.001 eV, respectively. As the number of layers is increased to three, both the direct/indirect Eg decrease significantly; the indirect Eg approaches that of the multilayers. Oxygen adsorption can cause the direct/indirect Eg of GaS to converge, resulting in monolayers with a strong emission. This wide Eg tuning over the visible-to-UV range could provide an insight for the realization of full-colored flexible and transparent light emitters and displays.Entities:
Keywords: GaS; GaSe; chemical vapor transport; first-principles calculation; monolayers; nanosheets
Year: 2015 PMID: 26344032 DOI: 10.1021/acsnano.5b04876
Source DB: PubMed Journal: ACS Nano ISSN: 1936-0851 Impact factor: 15.881