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Multidimensional analysis of excitonic spectra of monolayers of tungsten disulphide: toward computer-aided identification of structural and environmental perturbations of 2D materials

Pavel V Kolesnichenko, Qianhui Zhang, Changxi Zheng, Michael S Fuhrer, Jeffrey A Davis

2021Machine Learning Science and Technology14 citationsDOIOpen Access PDF

Abstract

Abstract Despite 2D materials holding great promise for a broad range of applications, the proliferation of devices and their fulfillment of real-life demands are still far from being realized. Experimentally obtainable samples commonly experience a wide range of perturbations (ripples and wrinkles, point and line defects, grain boundaries, strain field, doping, water intercalation, oxidation, edge reconstructions) significantly deviating the properties from idealistic models. These perturbations, in general, can be entangled or occur in groups with each group forming a complex perturbation making the interpretations of observable physical properties and the disentanglement of simultaneously acting effects a highly non-trivial task even for an experienced researcher. Here we generalise statistical correlation analysis of excitonic spectra of monolayer WS 2 , acquired by hyperspectral absorption and photoluminescence imaging, to a multidimensional case, and examine multidimensional correlations via unsupervised machine learning algorithms. Using principal component analysis we are able to identify four dominant components that are correlated with tensile strain, disorder induced by adsorption or intercalation of environmental molecules, multi-layer regions and charge doping, respectively. This approach has the potential to determine the local environment of WS 2 monolayers or other 2D materials from simple optical measurements, and paves the way toward advanced, machine-aided, characterization of monolayer matter.

Topics & Concepts

MonolayerPrincipal component analysisSpectral lineObservableMaterials sciencePhotoluminescenceHyperspectral imagingChemical physicsTungstenExcitonGrain boundaryMolecular physicsCharacterization (materials science)SpectroscopyScatteringAbsorption spectroscopyChemistryAdsorptionAnalytical Chemistry (journal)Biological systemAbsorption (acoustics)Range (aeronautics)Condensed matter physicsOptoelectronicsStatistical physicsComputational physicsWave functionIntercalation (chemistry)Polarization (electrochemistry)Multidimensional analysis2D Materials and ApplicationsElectronic and Structural Properties of OxidesChemical and Physical Properties of Materials
Multidimensional analysis of excitonic spectra of monolayers of tungsten disulphide: toward computer-aided identification of structural and environmental perturbations of 2D materials | Litcius