Using molecular-dynamics simulations of tensile deformation and shear loading tests, we determine the mechanical properties of superlattices of diamond-like nanocrystals embedded in twisted bilayer graphene (TBG) generated by covalent interlayer bonding through patterned hydrogenation. We find that the mechanical properties of these superstructures can be precisely tuned by controlling the fraction of sp3-hybridized C-C bonds in the material, fsp3, through the extent of chemical functionalization. The Young modulus and ultimate tensile strength weaken compared with pristine TBG with increasing fsp3, but they remain superior to those of most conventional materials. The interlayer shear modulus increases monotonically with fsp3.
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