| Literature DB >> 27584720 |
Hyuksang Kwon1, Sung Won Seo1,2, Tae Gun Kim1,2, Eun Seong Lee1, Phung Thi Lanh1,2, Sena Yang1, Sunmin Ryu3, Jeong Won Kim1,2.
Abstract
Ultrathin black phosphorus (BP) is one of the promising two-dimensional (2D) materials for future optoelectronic devices. Its chemical instability in ambient conditions and lack of a bottom-up approach for its synthesis necessitate efficient etching methods that generate BP films of designed thickness with stable and high-quality surfaces. Herein, reporting a photochemical etching method, we demonstrate a controlled layer-by-layer thinning of thick BP films down to a few layers or a single layer and confirm their Raman and photoluminescence characteristics. Ozone molecules generated by O2 photolysis oxidize BP, forming P2O5-like oxides. When the resulting phosphorus oxides are removed by water, the surface of BP with preset thickness is highly flat and self-protective by surface oxygen functional groups. This method provides a fabrication strategy of BP and possibly other 2D semiconductors with band gaps tuned by their thickness.Entities:
Keywords: etching; ozone; phosphorene (black phosphorus); protective layer; water
Year: 2016 PMID: 27584720 DOI: 10.1021/acsnano.6b04194
Source DB: PubMed Journal: ACS Nano ISSN: 1936-0851 Impact factor: 15.881