Abstract3D construction of 2D sheets is the key to the utilization of graphene for large scale industrial applications. The layer by layer approach of additive manufacturing enables a high degree of design freedom for the fabrication of 3D graphene structures with excellent mechanical flexibility. Herein, the excellent mechanical and functional properties of 3D nitrogen‐doped graphene (NG) foams fabricated is demonstrated via 3D printed templates and template‐directed chemical vapor deposition. The super‐elastic foam, consisting of interconnected networks of graphene sheets can make near complete strain recovery from load up to 62500 times its own weight, with extraordinary damage tolerance at a low density of 9.5 mg cm−3. Fast transport of charge carriers (5 S cm−1) highlights the potential of the NG foam for use in various functional applications. Observed temperature‐invariant reversible elasticity from −196 to 300 °C further emphasizes its value for use in demanding environments.

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