T. A. Kamenskaya, I. A. Eliseyev, V. Yu. Davydov, A. Yu. Kuntsevich
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Strain in 2D TMDCs induced by metal-assisted exfoliation from the polyvinilalcohol-covered substrate
We have modified the metal-assisted transfer technique to obtain large-area
few-layer flakes from transition metal dichalcogenides bulk crystals by
introducing an initial stage - exfoliation of the bulk crystal onto an
intermediate substrate, specifically a silicon wafer coated with polyvinyl
alcohol. Following this, we thermally evaporate silver onto the sample and
transfer the top layers of the crystal along with the silver layer to the
target substrate. This technique allows the production of visually
non-corrugated single- and few-layer flakes with high yield. A direct
comparison of the micro-Raman and micro-photoluminescence spectra of flakes
exfoliated using our method with the spectra of those exfoliated from scotch
tape reveals differences in their properties. We identify signatures of
deformations in the flakes exfoliated from the intermediate substrate,
indicating the presence of static friction between the substrate and the flake.
Our findings thus suggest a novel method to induce intrinsic deformation in 2D
materials.
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