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Multimodal Nanoscopic Study of Atomic Diffusion and Related Localized Optoelectronic Response of WS<sub>2</sub>/MoS<sub>2</sub> Lateral Heterojunctions

Jiaqi Shao, Fei Chen, Weitao Su, Yijie Zeng, Hongwei Lu

2021ACS Applied Materials & Interfaces16 citationsDOI

Abstract

The atomic diffusion in transition metal dichalcogenides (TMDs) van der Waals heterojunctions (HJs) strongly modifies their optoelectronic properties in the nanoscale. However, probing such localized properties challenges the spatial resolution and the sensitivity of a variety of analytic tools. Herein, a multimodal nanoscopy (based on tip enhanced Raman spectroscopy (TERS) and photoluminescence (TEPL)) combined with the Kelvin probe force microscopy (KPFM) method was used to probe such nanoscale localized optoelectronic properties induced by atomic diffusion. Chemical vapor deposition (CVD)-grown lateral bilayer (2L) WS2/MoS2 HJs were imaged with a spatial resolution better than 40 nm via TERS and TEPL mapping by using intrinsic Raman and photoluminescence (PL) peaks. The contact potential difference (CPD), capacitance, and PL variation in a nanoscale vicinity of the HJ interface can be correlated to the local stoichiometry variation determined by TERS. The diffusion coefficients of W and Mo were obtained to be ∼0.5 × 10–12 and ∼1 × 10–12 cm2/s, respectively, by using Fick’s second law. The obtained results would be useful to further understand the localized optoelectronic response of the TMDs HJs.

Topics & Concepts

Materials scienceHeterojunctionKelvin probe force microscopePhotoluminescenceRaman spectroscopyNanoscopic scaleOptoelectronicsvan der Waals forceDiffusionMicroscopyChemical vapor depositionAnalytical Chemistry (journal)NanotechnologyAtomic force microscopyOpticsChemistryMoleculeThermodynamicsPhysicsChromatographyOrganic chemistry2D Materials and ApplicationsPerovskite Materials and ApplicationsGraphene research and applications
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