Data di Pubblicazione:
2018
Citazione:
Strain Modulation of Graphene by Nanoscale Substrate Curvatures : A Molecular View / Y. Zhang, M. Heiranian, B. Janicek, Z. Budrikis, S. Zapperi, P.Y. Huang, H.T. Johnson, N.R. Aluru, J.W. Lyding, N. Mason. - In: NANO LETTERS. - ISSN 1530-6984. - 18:3(2018 Mar 14), pp. 2098-2104. [10.1021/acs.nanolett.8b00273]
Abstract:
Spatially nonuniform strain is important for engineering the pseudomagnetic field and band structure of graphene. Despite the wide interest in strain engineering, there is still a lack of control on device-compatible strain patterns due to the limited understanding of the structure-strain relationship. Here, we study the effect of substrate corrugation and curvature on the strain profiles of graphene via combined experimental and theoretical studies of a model system: graphene on closely packed SiO2nanospheres with different diameters (20-200 nm). Experimentally, via quantitative Raman analysis, we observe partial adhesion and wrinkle features and find that smaller nanospheres induce larger tensile strain in graphene; theoretically, molecular dynamics simulations confirm the same microscopic structure and size dependence of strain and reveal that a larger strain is caused by a stronger, inhomogeneous interaction force between smaller nanospheres and graphene. This molecular-level understanding of the strain mechanism is important for strain engineering of graphene and other two-dimensional materials.
Tipologia IRIS:
01 - Articolo su periodico
Keywords:
2D material; deformation; graphene; nanoparticles; pseudomagnetic field; strain
Elenco autori:
Y. Zhang, M. Heiranian, B. Janicek, Z. Budrikis, S. Zapperi, P.Y. Huang, H.T. Johnson, N.R. Aluru, J.W. Lyding, N. Mason
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