Symmetry Breakdown in Franckeite: Spontaneous Strain, Rippling, and Interlayer Moire

Spontaneous Strain, Rippling, and Interlayer Moiré

Journal article (2020)

Authors

Riccardo Frisenda Instituto de Ciencia de Materiales de Madrid (ICMM)

Gabriel Sánchez-Santolino Instituto de Ciencia de Materiales de Madrid (ICMM)

N. Papadopoulos Kavli institute of nanoscience Delft, QRD/Goswami Lab - QuTech Advanced Research Centre

Joanna Urban CNRS-UPS

Michal Baranowski CNRS-UPS, Wrocław University of Technology

Alessandro Surrente CNRS-UPS

Duncan K. Maude CNRS-UPS

Mar Garcia-Hernandez Instituto de Ciencia de Materiales de Madrid (ICMM)

H.S.J. van der Zant QN/van der Zant Lab - , Kavli institute of nanoscience Delft

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Research Group

QRD/Goswami Lab (QuTech Advanced Research Centre) (TU Delft)

Copyright: © 2020 Riccardo Frisenda, Gabriel Sanchez-Santolino, N. Papadopoulos, Joanna Urban, Michal Baranowski, Alessandro Surrente, Duncan K. Maude, Mar Garcia-Hernandez, H.S.J. van der Zant, More Authors

DOI: https://doi.org/10.1021/acs.nanolett.9b04536

Strain 2D material Anisotropic material Franckeite Interlayer moiré

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Published Date

2020

Language

English

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Faculty

QuTech Advanced Research Centre

Department

Qubit Research Division

Research Group

QRD/Goswami Lab

Abstract

Franckeite is a naturally occurring layered mineral with a structure composed of alternating stacks of SnS2-like and PbS-like layers. Although this superlattice is composed of a sequence of isotropic two-dimensional layers, it exhibits a spontaneous rippling that makes the material structurally anisotropic. We demonstrate that this rippling comes hand in hand with an inhomogeneous in-plane strain profile and anisotropic electrical, vibrational, and optical properties. We argue that this symmetry breakdown results from a spatial modulation of the van der Waals interaction between layers due to the SnS2-like and PbS-like lattices incommensurability.

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