We report a computational study of the bending deformation of two-dimensional nanoribbons by classical molecular dynamics methods. Two-dimensional double transition metal carbides, together with monometallic ones, belong to the family of novel nanomaterials, so-called MXenes. Recently, it was reported that within molecular dynamics simulations, TiC MXene nanoribbons demonstrated higher resistance to bending deformation than thinner TiC MXene and other two-dimensional materials, such as graphene and molybdenum disulfide. Here, we apply a similar method to that used in a previous study to investigate the behavior of MoTiC nanoribbon under bending deformation, in comparison to the TiC sample that has a similar structure. Our calculations show that MoTiC is characterized by higher bending rigidity at DTi2Mo2C3≈92.15 eV than monometallic TiC nanoribbon at DTi4C3≈72.01 eV, which has a similar thickness. Moreover, approximately the same magnitude of critical central deflection of the nanoribbon before fracture was observed for both MoTiC and TiC samples, wc≈1.7 nm, while MoTiC MXene is characterized by almost two times higher critical value of related external force.
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| http://dx.doi.org/10.3390/molecules29194668 | DOI Listing |
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