Morphology Deformation and Giant Electronic Band Modulation in Long-Wavelength WS2 Moiré Superlattices

As a lattice interference effect, moiré superlattices feature a magnification effect that they respond sensitively to both the extrinsic mechanical perturbations and intrinsic atomic reconstructions. Here, using scanning tunneling microscopy and spectroscopy, we observe that long-wavelength WS2 sup...

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Veröffentlicht in:	Nano letters 2022-07, Vol.22 (14), p.5997-6003
Hauptverfasser:	Li, Kaihui, Xiao, Feiping, Guan, Wen, Xiao, Yulong, Xu, Chang, Zhang, Jinding, Lin, Chenfang, Li, Dong, Tong, Qingjun, Li, Si-Yu, Pan, Anlian
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creator	Li, Kaihui Xiao, Feiping Guan, Wen Xiao, Yulong Xu, Chang Zhang, Jinding Lin, Chenfang Li, Dong Tong, Qingjun Li, Si-Yu Pan, Anlian
description	As a lattice interference effect, moiré superlattices feature a magnification effect that they respond sensitively to both the extrinsic mechanical perturbations and intrinsic atomic reconstructions. Here, using scanning tunneling microscopy and spectroscopy, we observe that long-wavelength WS2 superlattices are reconstructed into various moiré morphologies, ranging from regular hexagons to heavily deformed ones. We show that a dedicated interplay between the extrinsic nonuniform heterostrain and the intrinsic atomic reconstruction is responsible for this interesting moiré structure evolution. Importantly, the interplay between these two factors also introduces a local inhomogeneous intralayer strain within a moiré. Contrary to the commonly reported electronic modulation that occurred at the valence band edge due to interlayer hybridization, we find that this local intralayer strain induces a strong modulation at K point of the conduction band, reaching up to 300 meV in the heavily deformed moiré. Our microscopic explorations provide valuable information in understanding the intriguing physics in TMD moirés.
doi_str_mv	10.1021/acs.nanolett.2c02418
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title	Morphology Deformation and Giant Electronic Band Modulation in Long-Wavelength WS2 Moiré Superlattices
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