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Geometrical Engineering of Giant Optical Dichroism in Rippled MoS<sub>2</sub> Nanosheets

Carlo Mennucci, Andrea Mazzanti, Christian Martella, Alessio Lamperti, Mukul Bhatnagar, Roberto Lo Savio, Luca Repetto, Andrea Camellini, M. Zavelani–Rossi, Alessandro Molle, F. Buatier de Mongeot, Giuseppe Della Valle

2020Advanced Optical Materials13 citationsDOI

Abstract

Abstract A cost effective method to tailor the optical response of large‐area nanosheets of 2D materials is described. A reduced effective metalayer model is introduced to capture the key‐role of the out‐of‐plane component of the dielectric tensor. Such a model indicates that the optical extinction of 2D materials can be strongly altered by controlling the geometry at the local (i.e., subwavelength) scale. In particular, a giant linear optical dichroism at normal incidence is demonstrated, with major features around the excitonic peaks, that can be tailored by acting on the average curvature and slope of the nanosheets. The approach is experimentally demonstrated in few‐layer MoS 2 grown by chemical vapor deposition on cm‐scale anisotropic nanopatterned substrates prepared by a self‐assembling technique, based on defocused ion beam sputtering. Major variations in the photoluminescence spectrum as a function of the average curvature and slope are also revealed. A full‐vectorial numerical study beyond the effective metalayer model and comprising strain effects induced by the geometry turns out to be consistent with such a complex scenario. The results demonstrate that the extrinsic geometrical engineering definitely opens viable way to tailor the optical properties and modulate bandgap of low dimensional materials.

Topics & Concepts

Materials scienceCurvatureAnisotropyDichroismPhotoluminescenceDielectricExtinction (optical mineralogy)OptoelectronicsOpticsMolecular physicsGeometryPhysicsMathematics2D Materials and ApplicationsAdvanced biosensing and bioanalysis techniquesPlasmonic and Surface Plasmon Research
Geometrical Engineering of Giant Optical Dichroism in Rippled MoS<sub>2</sub> Nanosheets | Litcius