Raman scattering investigation of twisted WS2/MoS2 heterostructures: interlayer mechanical coupling versus charge transfer

Twisted van der Waals homo- and hetero-structures have aroused great attentions due to their unique physical properties, providing a new platform to explore the novel two-dimensional (2D) condensed matter physics. The robust dependence of phonon vibrations and electronic band structures on the twist...

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Bibliographic Details
Published in:Nano research 2021-07, Vol.14 (7), p.2215-2223
Main Authors: Wu, Lishu, Cong, Chunxiao, Shang, Jingzhi, Yang, Weihuang, Chen, Yu, Zhou, Jiadong, Ai, Wei, Wang, Yanlong, Feng, Shun, Zhang, Hongbo, Liu, Zheng, Yu, Ting
Format: Article
Language:English
Subjects:
Atomic/Molecular Structure and Spectra
Biomedicine
Biotechnology
Charge transfer
Chemical vapor deposition
Chemistry and Materials Science
Condensed Matter Physics
Coupling
Density functional theory
Heterostructures
Interlayers
Lattice vibration
Materials Science
Mechanical properties
Molybdenum disulfide
Nanotechnology
Optical properties
Optoelectronic devices
Phonons
Physical properties
Physics
Raman spectra
Research Article
Sulfur
Transition metal compounds
Tungsten disulfide
Vibrations
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Summary:Twisted van der Waals homo- and hetero-structures have aroused great attentions due to their unique physical properties, providing a new platform to explore the novel two-dimensional (2D) condensed matter physics. The robust dependence of phonon vibrations and electronic band structures on the twist angle has been intensively observed in transition metal dichalcogenide (TMD) homo-structures. However, the effects of twist angle on the lattice vibrational properties in the TMD heterostructures have not caused enough attention. Here, we report the distinct evolutions of Raman scattering and the underlying interlayer interactions in the twisted WS 2 /MoS 2 heterostructures. The shifts and linewidths of E 2g (Γ) and A 1g (Γ) phonon modes are found to be twist angle dependent. In particular, analogous to that of the twisted TMD homostructures, the frequency separations between E 2g (Γ) and A 1g (Γ) modes of MoS 2 and WS 2 in the twisted heterostructures varying with twist angle correlate with the interlayer mechanical coupling, essentially originating from the spacing-related repulsion between sulfur atoms. Moreover, the opposite shift behaviors and broadening of A 1g (Γ) modes caused by charge transfer are also observed in the twisted heterostructures. The calculated interlayer distances and band alignment of twisted WS 2 /MoS 2 through density functional theory further evidence our interpretations on the roles of the interlayer mechanical coupling and charge transfer in variations of Raman features. Such understanding and controlling of interlayer interaction through the stacking orientation are significant for future optoelectronic device design based on the newly emerged 2D heterostructures.
ISSN:1998-0124
1998-0000
DOI:10.1007/s12274-020-3193-y