| Literature DB >> 29039361 |
Riccardo Frisenda1, Joshua O Island, Jose L Lado, Emerson Giovanelli, Patricia Gant, Philipp Nagler, Sebastian Bange, John M Lupton, Christian Schüller, Aday J Molina-Mendoza, Lucia Aballe, Michael Foerster, Tobias Korn, Miguel Angel Niño, David Perez de Lara, Emilio M Pérez, Joaquín Fernandéz-Rossier, Andres Castellanos-Gomez.
Abstract
Two-dimensional (2D) semiconducting materials are particularly appealing for many applications. Although theory predicts a large number of 2D materials, experimentally only a few of these materials have been identified and characterized comprehensively in the ultrathin limit. Lead iodide, which belongs to the transition metal halides family and has a direct bandgap in the visible spectrum, has been known for a long time and has been well characterized in its bulk form. Nevertheless, studies of this material in the nanometer thickness regime are rather scarce. In this article we demonstrate an easy way to synthesize ultrathin, highly crystalline flakes of PbI2 by precipitation from a solution in water. We thoroughly characterize the produced thin flakes with different techniques ranging from optical and Raman spectroscopy to temperature-dependent photoluminescence and electron microscopy. We compare the results to ab initio calculations of the band structure of the material. Finally, we fabricate photodetectors based on PbI2 and study their optoelectronic properties.Entities:
Year: 2017 PMID: 29039361 DOI: 10.1088/1361-6528/aa8e5c
Source DB: PubMed Journal: Nanotechnology ISSN: 0957-4484 Impact factor: 3.874