Elastic properties of moir\'e lattices in epitaxial two-dimensional materials

Abstract

Unlike conventional two-dimensional (2D) semiconductor superlattices, moir\'e patterns in 2D materials are flexible and their electronic, magnetic, optical, and mechanical properties depend on their topography. Within a continuous+atomistic theory treating 2D materials as crystalline elastic membranes, we abandon the flat-membrane scenario usually assumed for these materials and address out-of-plane deformations. We confront our predictions to experimental analyses on model systems, epitaxial graphene, and MoS2 on metals and reveal that compression/expansion and bending energies stored in the membrane can compete with adhesion energy, leading to a subtle moir\'e wavelength selection and the formation of wrinkles.

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