Universal deformation pathways and flexural hardening of nanoscale 2D-material standing folds.
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2018
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In the present work, we use atomic force microscopy nanomanipulation of 2D-material standing folds to investigate their mechanical deformation. Using graphene, h-BN and talc nanoscale wrinkles as testbeds, universal force–strain pathways are clearly uncovered and well-accounted for by an analytical model. Such universality further enables the investigation of each fold bending stiffness κ as a function of its characteristic height h 0. We observe a more than tenfold increase of κ as h 0 increases in the 10–100 nm range, with power-law behaviors of κ versus h 0 with exponents larger than unity for the three materials. This implies anomalous scaling of the mechanical responses of nano-objects made from these materials.
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2D materials, Scanning probe microscopy, Molecular dynamics
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CHACHAM, H. et al. Universal deformation pathways and flexural hardening of nanoscale 2D-material standing folds. Nanotechnology, v. 29, n. 9, p. 095704, 2018. Disponível em: <http://iopscience.iop.org/article/10.1088/1361-6528/aaa51e/meta>. Acesso em: 16 jun. 2018.