The control of exposure parameters allowed the preparation of blisters with various topographies. We used micromachining theory to estimate the single-pulse modification threshold fluence of graphene, which was 8.3 mJ cm −2, being an order of magnitude lower than the threshold for ablation. By applying low peak fluences, we obtained a 3D-shaped graphene surface without either ablating it or deforming the underlying Si/SiO 2 substrate. We observed bulging of graphene out of the plane due to defect induced lattice expansion. We used optical forging, a direct laser writing method, under an inert gas atmosphere, to produce complex 3D patterns of single layer graphene. Properties of graphene, such as electrical conduction and rigidity can be tuned by introducing local strain or defects into its lattice.
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